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You are an IFC (Industry Foundation Classes) and BIM (Building Information Modeling) expert. Provide accurate, detailed, and practical answers to questions about IFC schemas, implementation, and usage in the AEC industry. | Create a complete IFC definition for a shear wall that is 100mm thick, 2400mm high, 3600mm long, made of Masonry, load-bearing, internal, with fire rating F30. | #1=IFCPROJECT('3MDa0qu6X5eBFeTDmhEULg',$,'Sample Project',$,$,$,$,$,$);
#2=IFCSIUNIT(*,.LENGTHUNIT.,.MILLI.,.METRE.);
#3=IFCSIUNIT(*,.AREAUNIT.,$,.SQUARE_METRE.);
#4=IFCSIUNIT(*,.VOLUMEUNIT.,$,.CUBIC_METRE.);
#5=IFCUNITASSIGNMENT((#2,#3,#4));
#6=IFCCARTESIANPOINT((0.,0.,0.));
#7=IFCDIRECTION((0.,0.,1.));
#8=IFCDIRECTION((1.,0.,0.));
#9=IFCAXIS2PLACEMENT3D(#6,#7,#8);
#10=IFCLOCALPLACEMENT($,#9);
#11=IFCBUILDING('2aG1gZj7PD2PztLOx2$yoY',$,'Building',$,$,#10,$,$,$,.ELEMENT.,$,$,$);
#12=IFCRELAGGREGATES('1Dd9Lcp$D9OQWkO1$Ykphl',$,'Building Container',$,#1,(#11));
#13=IFCBUILDINGSTOREY('1zS3wBH99AOguUiArbHbX8',$,'Level 1','First Level',$,#10,$,$,$,.ELEMENT.,0.);
#14=IFCRELAGGREGATES('2MH0qYHvH8xgpuPHJrPH8t',$,'Storey Container',$,#11,(#13));
#15=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A shear wall',$,#10,$,$,.SHEAR.);
#16=IFCMATERIAL('Masonry',$,$);
#17=IFCMATERIALLAYER(#16,100,.U.,$,$,$,$);
#18=IFCMATERIALLAYERSET((#17),'Masonry - 100mm',$);
#19=IFCMATERIALLAYERSETUSAGE(#18,.AXIS2.,.NEGATIVE.,50.0.,$);
#20=IFCRELASSOCIATESMATERIAL('3qGDYRqI98RApqr6xHdZKe',$,'Material to Wall',$,(#15),#19);
#21=IFCRECTANGLEPROFILEDEF(.AREA.,'Wall Profile',$,3600.,100.);
#22=IFCCARTESIANPOINT((0.,0.,0.));
#23=IFCDIRECTION((0.,0.,1.));
#24=IFCDIRECTION((1.,0.,0.));
#25=IFCAXIS2PLACEMENT3D(#22,#23,#24);
#26=IFCDIRECTION((0.,0.,1.));
#27=IFCEXTRUDEDAREASOLID(#21,#25,#26,2400.);
#28=IFCSHAPEREPRESENTATION(#1,'Body','SweptSolid',(#27));
#29=IFCPRODUCTDEFINITIONSHAPE($,$,(#28));
#30=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A shear wall',$,#10,#29,$,.SHEAR.);
#31=IFCRELCONTAINEDINSPATIALSTRUCTURE('2ZAHNO3Qn8BxK$rKH6cl4D',$,'Wall Containment',$,(#30),#13);
#32=IFCPROPERTYSINGLEVALUE('LoadBearing',$,IFCBOOLEAN(.T.),$);
#33=IFCPROPERTYSINGLEVALUE('IsExternal',$,IFCBOOLEAN(.F.),$);
#34=IFCPROPERTYSINGLEVALUE('FireRating',$,IFCLABEL('F30'),$);
#35=IFCPROPERTYSET('2grnRSqIL7hh$liSj0W0Ht',$,'Pset_WallCommon',$,(#32,#33,#34));
#36=IFCRELDEFINESBYPROPERTIES('35A0dwNnD8fALlO7A2JM7c',$,'Wall Common Properties',$,(#30),#35); |
You are an IFC (Industry Foundation Classes) and BIM (Building Information Modeling) expert. Provide accurate, detailed, and practical answers to questions about IFC schemas, implementation, and usage in the AEC industry. | Create a complete IFC definition for a retainingwall wall that is 200mm thick, 3600mm high, 4500mm long, made of Masonry, load-bearing, external, with fire rating F30. | #1=IFCPROJECT('3MDa0qu6X5eBFeTDmhEULg',$,'Sample Project',$,$,$,$,$,$);
#2=IFCSIUNIT(*,.LENGTHUNIT.,.MILLI.,.METRE.);
#3=IFCSIUNIT(*,.AREAUNIT.,$,.SQUARE_METRE.);
#4=IFCSIUNIT(*,.VOLUMEUNIT.,$,.CUBIC_METRE.);
#5=IFCUNITASSIGNMENT((#2,#3,#4));
#6=IFCCARTESIANPOINT((0.,0.,0.));
#7=IFCDIRECTION((0.,0.,1.));
#8=IFCDIRECTION((1.,0.,0.));
#9=IFCAXIS2PLACEMENT3D(#6,#7,#8);
#10=IFCLOCALPLACEMENT($,#9);
#11=IFCBUILDING('2aG1gZj7PD2PztLOx2$yoY',$,'Building',$,$,#10,$,$,$,.ELEMENT.,$,$,$);
#12=IFCRELAGGREGATES('1Dd9Lcp$D9OQWkO1$Ykphl',$,'Building Container',$,#1,(#11));
#13=IFCBUILDINGSTOREY('1zS3wBH99AOguUiArbHbX8',$,'Level 1','First Level',$,#10,$,$,$,.ELEMENT.,0.);
#14=IFCRELAGGREGATES('2MH0qYHvH8xgpuPHJrPH8t',$,'Storey Container',$,#11,(#13));
#15=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A retainingwall wall',$,#10,$,$,.RETAININGWALL.);
#16=IFCMATERIAL('Masonry',$,$);
#17=IFCMATERIALLAYER(#16,200,.U.,$,$,$,$);
#18=IFCMATERIALLAYERSET((#17),'Masonry - 200mm',$);
#19=IFCMATERIALLAYERSETUSAGE(#18,.AXIS2.,.NEGATIVE.,100.0.,$);
#20=IFCRELASSOCIATESMATERIAL('3qGDYRqI98RApqr6xHdZKe',$,'Material to Wall',$,(#15),#19);
#21=IFCRECTANGLEPROFILEDEF(.AREA.,'Wall Profile',$,4500.,200.);
#22=IFCCARTESIANPOINT((0.,0.,0.));
#23=IFCDIRECTION((0.,0.,1.));
#24=IFCDIRECTION((1.,0.,0.));
#25=IFCAXIS2PLACEMENT3D(#22,#23,#24);
#26=IFCDIRECTION((0.,0.,1.));
#27=IFCEXTRUDEDAREASOLID(#21,#25,#26,3600.);
#28=IFCSHAPEREPRESENTATION(#1,'Body','SweptSolid',(#27));
#29=IFCPRODUCTDEFINITIONSHAPE($,$,(#28));
#30=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A retainingwall wall',$,#10,#29,$,.RETAININGWALL.);
#31=IFCRELCONTAINEDINSPATIALSTRUCTURE('2ZAHNO3Qn8BxK$rKH6cl4D',$,'Wall Containment',$,(#30),#13);
#32=IFCPROPERTYSINGLEVALUE('LoadBearing',$,IFCBOOLEAN(.T.),$);
#33=IFCPROPERTYSINGLEVALUE('IsExternal',$,IFCBOOLEAN(.T.),$);
#34=IFCPROPERTYSINGLEVALUE('FireRating',$,IFCLABEL('F30'),$);
#35=IFCPROPERTYSET('2grnRSqIL7hh$liSj0W0Ht',$,'Pset_WallCommon',$,(#32,#33,#34));
#36=IFCRELDEFINESBYPROPERTIES('35A0dwNnD8fALlO7A2JM7c',$,'Wall Common Properties',$,(#30),#35); |
You are an IFC (Industry Foundation Classes) and BIM (Building Information Modeling) expert. Provide accurate, detailed, and practical answers to questions about IFC schemas, implementation, and usage in the AEC industry. | Create a complete IFC definition for a parapet wall that is 50mm thick, 3600mm high, 5000mm long, made of Timber, load-bearing, external, with fire rating F180. | #1=IFCPROJECT('3MDa0qu6X5eBFeTDmhEULg',$,'Sample Project',$,$,$,$,$,$);
#2=IFCSIUNIT(*,.LENGTHUNIT.,.MILLI.,.METRE.);
#3=IFCSIUNIT(*,.AREAUNIT.,$,.SQUARE_METRE.);
#4=IFCSIUNIT(*,.VOLUMEUNIT.,$,.CUBIC_METRE.);
#5=IFCUNITASSIGNMENT((#2,#3,#4));
#6=IFCCARTESIANPOINT((0.,0.,0.));
#7=IFCDIRECTION((0.,0.,1.));
#8=IFCDIRECTION((1.,0.,0.));
#9=IFCAXIS2PLACEMENT3D(#6,#7,#8);
#10=IFCLOCALPLACEMENT($,#9);
#11=IFCBUILDING('2aG1gZj7PD2PztLOx2$yoY',$,'Building',$,$,#10,$,$,$,.ELEMENT.,$,$,$);
#12=IFCRELAGGREGATES('1Dd9Lcp$D9OQWkO1$Ykphl',$,'Building Container',$,#1,(#11));
#13=IFCBUILDINGSTOREY('1zS3wBH99AOguUiArbHbX8',$,'Level 1','First Level',$,#10,$,$,$,.ELEMENT.,0.);
#14=IFCRELAGGREGATES('2MH0qYHvH8xgpuPHJrPH8t',$,'Storey Container',$,#11,(#13));
#15=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A parapet wall',$,#10,$,$,.PARAPET.);
#16=IFCMATERIAL('Timber',$,$);
#17=IFCMATERIALLAYER(#16,50,.U.,$,$,$,$);
#18=IFCMATERIALLAYERSET((#17),'Timber - 50mm',$);
#19=IFCMATERIALLAYERSETUSAGE(#18,.AXIS2.,.NEGATIVE.,25.0.,$);
#20=IFCRELASSOCIATESMATERIAL('3qGDYRqI98RApqr6xHdZKe',$,'Material to Wall',$,(#15),#19);
#21=IFCRECTANGLEPROFILEDEF(.AREA.,'Wall Profile',$,5000.,50.);
#22=IFCCARTESIANPOINT((0.,0.,0.));
#23=IFCDIRECTION((0.,0.,1.));
#24=IFCDIRECTION((1.,0.,0.));
#25=IFCAXIS2PLACEMENT3D(#22,#23,#24);
#26=IFCDIRECTION((0.,0.,1.));
#27=IFCEXTRUDEDAREASOLID(#21,#25,#26,3600.);
#28=IFCSHAPEREPRESENTATION(#1,'Body','SweptSolid',(#27));
#29=IFCPRODUCTDEFINITIONSHAPE($,$,(#28));
#30=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A parapet wall',$,#10,#29,$,.PARAPET.);
#31=IFCRELCONTAINEDINSPATIALSTRUCTURE('2ZAHNO3Qn8BxK$rKH6cl4D',$,'Wall Containment',$,(#30),#13);
#32=IFCPROPERTYSINGLEVALUE('LoadBearing',$,IFCBOOLEAN(.T.),$);
#33=IFCPROPERTYSINGLEVALUE('IsExternal',$,IFCBOOLEAN(.T.),$);
#34=IFCPROPERTYSINGLEVALUE('FireRating',$,IFCLABEL('F180'),$);
#35=IFCPROPERTYSET('2grnRSqIL7hh$liSj0W0Ht',$,'Pset_WallCommon',$,(#32,#33,#34));
#36=IFCRELDEFINESBYPROPERTIES('35A0dwNnD8fALlO7A2JM7c',$,'Wall Common Properties',$,(#30),#35); |
You are an IFC (Industry Foundation Classes) and BIM (Building Information Modeling) expert. Provide accurate, detailed, and practical answers to questions about IFC schemas, implementation, and usage in the AEC industry. | Create a complete IFC definition for a elementedwall wall that is 100mm thick, 2700mm high, 6000mm long, made of Masonry, load-bearing, external, with fire rating F30. | #1=IFCPROJECT('3MDa0qu6X5eBFeTDmhEULg',$,'Sample Project',$,$,$,$,$,$);
#2=IFCSIUNIT(*,.LENGTHUNIT.,.MILLI.,.METRE.);
#3=IFCSIUNIT(*,.AREAUNIT.,$,.SQUARE_METRE.);
#4=IFCSIUNIT(*,.VOLUMEUNIT.,$,.CUBIC_METRE.);
#5=IFCUNITASSIGNMENT((#2,#3,#4));
#6=IFCCARTESIANPOINT((0.,0.,0.));
#7=IFCDIRECTION((0.,0.,1.));
#8=IFCDIRECTION((1.,0.,0.));
#9=IFCAXIS2PLACEMENT3D(#6,#7,#8);
#10=IFCLOCALPLACEMENT($,#9);
#11=IFCBUILDING('2aG1gZj7PD2PztLOx2$yoY',$,'Building',$,$,#10,$,$,$,.ELEMENT.,$,$,$);
#12=IFCRELAGGREGATES('1Dd9Lcp$D9OQWkO1$Ykphl',$,'Building Container',$,#1,(#11));
#13=IFCBUILDINGSTOREY('1zS3wBH99AOguUiArbHbX8',$,'Level 1','First Level',$,#10,$,$,$,.ELEMENT.,0.);
#14=IFCRELAGGREGATES('2MH0qYHvH8xgpuPHJrPH8t',$,'Storey Container',$,#11,(#13));
#15=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A elementedwall wall',$,#10,$,$,.ELEMENTEDWALL.);
#16=IFCMATERIAL('Masonry',$,$);
#17=IFCMATERIALLAYER(#16,100,.U.,$,$,$,$);
#18=IFCMATERIALLAYERSET((#17),'Masonry - 100mm',$);
#19=IFCMATERIALLAYERSETUSAGE(#18,.AXIS2.,.NEGATIVE.,50.0.,$);
#20=IFCRELASSOCIATESMATERIAL('3qGDYRqI98RApqr6xHdZKe',$,'Material to Wall',$,(#15),#19);
#21=IFCRECTANGLEPROFILEDEF(.AREA.,'Wall Profile',$,6000.,100.);
#22=IFCCARTESIANPOINT((0.,0.,0.));
#23=IFCDIRECTION((0.,0.,1.));
#24=IFCDIRECTION((1.,0.,0.));
#25=IFCAXIS2PLACEMENT3D(#22,#23,#24);
#26=IFCDIRECTION((0.,0.,1.));
#27=IFCEXTRUDEDAREASOLID(#21,#25,#26,2700.);
#28=IFCSHAPEREPRESENTATION(#1,'Body','SweptSolid',(#27));
#29=IFCPRODUCTDEFINITIONSHAPE($,$,(#28));
#30=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A elementedwall wall',$,#10,#29,$,.ELEMENTEDWALL.);
#31=IFCRELCONTAINEDINSPATIALSTRUCTURE('2ZAHNO3Qn8BxK$rKH6cl4D',$,'Wall Containment',$,(#30),#13);
#32=IFCPROPERTYSINGLEVALUE('LoadBearing',$,IFCBOOLEAN(.T.),$);
#33=IFCPROPERTYSINGLEVALUE('IsExternal',$,IFCBOOLEAN(.T.),$);
#34=IFCPROPERTYSINGLEVALUE('FireRating',$,IFCLABEL('F30'),$);
#35=IFCPROPERTYSET('2grnRSqIL7hh$liSj0W0Ht',$,'Pset_WallCommon',$,(#32,#33,#34));
#36=IFCRELDEFINESBYPROPERTIES('35A0dwNnD8fALlO7A2JM7c',$,'Wall Common Properties',$,(#30),#35); |
You are an IFC (Industry Foundation Classes) and BIM (Building Information Modeling) expert. Provide accurate, detailed, and practical answers to questions about IFC schemas, implementation, and usage in the AEC industry. | Create a complete IFC definition for a movable wall that is 500mm thick, 3600mm high, 3000mm long, made of Concrete, load-bearing, internal, with fire rating F120. | #1=IFCPROJECT('3MDa0qu6X5eBFeTDmhEULg',$,'Sample Project',$,$,$,$,$,$);
#2=IFCSIUNIT(*,.LENGTHUNIT.,.MILLI.,.METRE.);
#3=IFCSIUNIT(*,.AREAUNIT.,$,.SQUARE_METRE.);
#4=IFCSIUNIT(*,.VOLUMEUNIT.,$,.CUBIC_METRE.);
#5=IFCUNITASSIGNMENT((#2,#3,#4));
#6=IFCCARTESIANPOINT((0.,0.,0.));
#7=IFCDIRECTION((0.,0.,1.));
#8=IFCDIRECTION((1.,0.,0.));
#9=IFCAXIS2PLACEMENT3D(#6,#7,#8);
#10=IFCLOCALPLACEMENT($,#9);
#11=IFCBUILDING('2aG1gZj7PD2PztLOx2$yoY',$,'Building',$,$,#10,$,$,$,.ELEMENT.,$,$,$);
#12=IFCRELAGGREGATES('1Dd9Lcp$D9OQWkO1$Ykphl',$,'Building Container',$,#1,(#11));
#13=IFCBUILDINGSTOREY('1zS3wBH99AOguUiArbHbX8',$,'Level 1','First Level',$,#10,$,$,$,.ELEMENT.,0.);
#14=IFCRELAGGREGATES('2MH0qYHvH8xgpuPHJrPH8t',$,'Storey Container',$,#11,(#13));
#15=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A movable wall',$,#10,$,$,.MOVABLE.);
#16=IFCMATERIAL('Concrete',$,$);
#17=IFCMATERIALLAYER(#16,500,.U.,$,$,$,$);
#18=IFCMATERIALLAYERSET((#17),'Concrete - 500mm',$);
#19=IFCMATERIALLAYERSETUSAGE(#18,.AXIS2.,.NEGATIVE.,250.0.,$);
#20=IFCRELASSOCIATESMATERIAL('3qGDYRqI98RApqr6xHdZKe',$,'Material to Wall',$,(#15),#19);
#21=IFCRECTANGLEPROFILEDEF(.AREA.,'Wall Profile',$,3000.,500.);
#22=IFCCARTESIANPOINT((0.,0.,0.));
#23=IFCDIRECTION((0.,0.,1.));
#24=IFCDIRECTION((1.,0.,0.));
#25=IFCAXIS2PLACEMENT3D(#22,#23,#24);
#26=IFCDIRECTION((0.,0.,1.));
#27=IFCEXTRUDEDAREASOLID(#21,#25,#26,3600.);
#28=IFCSHAPEREPRESENTATION(#1,'Body','SweptSolid',(#27));
#29=IFCPRODUCTDEFINITIONSHAPE($,$,(#28));
#30=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A movable wall',$,#10,#29,$,.MOVABLE.);
#31=IFCRELCONTAINEDINSPATIALSTRUCTURE('2ZAHNO3Qn8BxK$rKH6cl4D',$,'Wall Containment',$,(#30),#13);
#32=IFCPROPERTYSINGLEVALUE('LoadBearing',$,IFCBOOLEAN(.T.),$);
#33=IFCPROPERTYSINGLEVALUE('IsExternal',$,IFCBOOLEAN(.F.),$);
#34=IFCPROPERTYSINGLEVALUE('FireRating',$,IFCLABEL('F120'),$);
#35=IFCPROPERTYSET('2grnRSqIL7hh$liSj0W0Ht',$,'Pset_WallCommon',$,(#32,#33,#34));
#36=IFCRELDEFINESBYPROPERTIES('35A0dwNnD8fALlO7A2JM7c',$,'Wall Common Properties',$,(#30),#35); |
You are an IFC (Industry Foundation Classes) and BIM (Building Information Modeling) expert. Provide accurate, detailed, and practical answers to questions about IFC schemas, implementation, and usage in the AEC industry. | Create a complete IFC definition for a parapet wall that is 150mm thick, 3600mm high, 7500mm long, made of Timber, non-load-bearing, external, with fire rating F180. | #1=IFCPROJECT('3MDa0qu6X5eBFeTDmhEULg',$,'Sample Project',$,$,$,$,$,$);
#2=IFCSIUNIT(*,.LENGTHUNIT.,.MILLI.,.METRE.);
#3=IFCSIUNIT(*,.AREAUNIT.,$,.SQUARE_METRE.);
#4=IFCSIUNIT(*,.VOLUMEUNIT.,$,.CUBIC_METRE.);
#5=IFCUNITASSIGNMENT((#2,#3,#4));
#6=IFCCARTESIANPOINT((0.,0.,0.));
#7=IFCDIRECTION((0.,0.,1.));
#8=IFCDIRECTION((1.,0.,0.));
#9=IFCAXIS2PLACEMENT3D(#6,#7,#8);
#10=IFCLOCALPLACEMENT($,#9);
#11=IFCBUILDING('2aG1gZj7PD2PztLOx2$yoY',$,'Building',$,$,#10,$,$,$,.ELEMENT.,$,$,$);
#12=IFCRELAGGREGATES('1Dd9Lcp$D9OQWkO1$Ykphl',$,'Building Container',$,#1,(#11));
#13=IFCBUILDINGSTOREY('1zS3wBH99AOguUiArbHbX8',$,'Level 1','First Level',$,#10,$,$,$,.ELEMENT.,0.);
#14=IFCRELAGGREGATES('2MH0qYHvH8xgpuPHJrPH8t',$,'Storey Container',$,#11,(#13));
#15=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A parapet wall',$,#10,$,$,.PARAPET.);
#16=IFCMATERIAL('Timber',$,$);
#17=IFCMATERIALLAYER(#16,150,.U.,$,$,$,$);
#18=IFCMATERIALLAYERSET((#17),'Timber - 150mm',$);
#19=IFCMATERIALLAYERSETUSAGE(#18,.AXIS2.,.NEGATIVE.,75.0.,$);
#20=IFCRELASSOCIATESMATERIAL('3qGDYRqI98RApqr6xHdZKe',$,'Material to Wall',$,(#15),#19);
#21=IFCRECTANGLEPROFILEDEF(.AREA.,'Wall Profile',$,7500.,150.);
#22=IFCCARTESIANPOINT((0.,0.,0.));
#23=IFCDIRECTION((0.,0.,1.));
#24=IFCDIRECTION((1.,0.,0.));
#25=IFCAXIS2PLACEMENT3D(#22,#23,#24);
#26=IFCDIRECTION((0.,0.,1.));
#27=IFCEXTRUDEDAREASOLID(#21,#25,#26,3600.);
#28=IFCSHAPEREPRESENTATION(#1,'Body','SweptSolid',(#27));
#29=IFCPRODUCTDEFINITIONSHAPE($,$,(#28));
#30=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A parapet wall',$,#10,#29,$,.PARAPET.);
#31=IFCRELCONTAINEDINSPATIALSTRUCTURE('2ZAHNO3Qn8BxK$rKH6cl4D',$,'Wall Containment',$,(#30),#13);
#32=IFCPROPERTYSINGLEVALUE('LoadBearing',$,IFCBOOLEAN(.F.),$);
#33=IFCPROPERTYSINGLEVALUE('IsExternal',$,IFCBOOLEAN(.T.),$);
#34=IFCPROPERTYSINGLEVALUE('FireRating',$,IFCLABEL('F180'),$);
#35=IFCPROPERTYSET('2grnRSqIL7hh$liSj0W0Ht',$,'Pset_WallCommon',$,(#32,#33,#34));
#36=IFCRELDEFINESBYPROPERTIES('35A0dwNnD8fALlO7A2JM7c',$,'Wall Common Properties',$,(#30),#35); |
You are an IFC (Industry Foundation Classes) and BIM (Building Information Modeling) expert. Provide accurate, detailed, and practical answers to questions about IFC schemas, implementation, and usage in the AEC industry. | Create a complete IFC definition for a parapet wall that is 200mm thick, 3000mm high, 3600mm long, made of Masonry, non-load-bearing, external, with fire rating F30. | #1=IFCPROJECT('3MDa0qu6X5eBFeTDmhEULg',$,'Sample Project',$,$,$,$,$,$);
#2=IFCSIUNIT(*,.LENGTHUNIT.,.MILLI.,.METRE.);
#3=IFCSIUNIT(*,.AREAUNIT.,$,.SQUARE_METRE.);
#4=IFCSIUNIT(*,.VOLUMEUNIT.,$,.CUBIC_METRE.);
#5=IFCUNITASSIGNMENT((#2,#3,#4));
#6=IFCCARTESIANPOINT((0.,0.,0.));
#7=IFCDIRECTION((0.,0.,1.));
#8=IFCDIRECTION((1.,0.,0.));
#9=IFCAXIS2PLACEMENT3D(#6,#7,#8);
#10=IFCLOCALPLACEMENT($,#9);
#11=IFCBUILDING('2aG1gZj7PD2PztLOx2$yoY',$,'Building',$,$,#10,$,$,$,.ELEMENT.,$,$,$);
#12=IFCRELAGGREGATES('1Dd9Lcp$D9OQWkO1$Ykphl',$,'Building Container',$,#1,(#11));
#13=IFCBUILDINGSTOREY('1zS3wBH99AOguUiArbHbX8',$,'Level 1','First Level',$,#10,$,$,$,.ELEMENT.,0.);
#14=IFCRELAGGREGATES('2MH0qYHvH8xgpuPHJrPH8t',$,'Storey Container',$,#11,(#13));
#15=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A parapet wall',$,#10,$,$,.PARAPET.);
#16=IFCMATERIAL('Masonry',$,$);
#17=IFCMATERIALLAYER(#16,200,.U.,$,$,$,$);
#18=IFCMATERIALLAYERSET((#17),'Masonry - 200mm',$);
#19=IFCMATERIALLAYERSETUSAGE(#18,.AXIS2.,.NEGATIVE.,100.0.,$);
#20=IFCRELASSOCIATESMATERIAL('3qGDYRqI98RApqr6xHdZKe',$,'Material to Wall',$,(#15),#19);
#21=IFCRECTANGLEPROFILEDEF(.AREA.,'Wall Profile',$,3600.,200.);
#22=IFCCARTESIANPOINT((0.,0.,0.));
#23=IFCDIRECTION((0.,0.,1.));
#24=IFCDIRECTION((1.,0.,0.));
#25=IFCAXIS2PLACEMENT3D(#22,#23,#24);
#26=IFCDIRECTION((0.,0.,1.));
#27=IFCEXTRUDEDAREASOLID(#21,#25,#26,3000.);
#28=IFCSHAPEREPRESENTATION(#1,'Body','SweptSolid',(#27));
#29=IFCPRODUCTDEFINITIONSHAPE($,$,(#28));
#30=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A parapet wall',$,#10,#29,$,.PARAPET.);
#31=IFCRELCONTAINEDINSPATIALSTRUCTURE('2ZAHNO3Qn8BxK$rKH6cl4D',$,'Wall Containment',$,(#30),#13);
#32=IFCPROPERTYSINGLEVALUE('LoadBearing',$,IFCBOOLEAN(.F.),$);
#33=IFCPROPERTYSINGLEVALUE('IsExternal',$,IFCBOOLEAN(.T.),$);
#34=IFCPROPERTYSINGLEVALUE('FireRating',$,IFCLABEL('F30'),$);
#35=IFCPROPERTYSET('2grnRSqIL7hh$liSj0W0Ht',$,'Pset_WallCommon',$,(#32,#33,#34));
#36=IFCRELDEFINESBYPROPERTIES('35A0dwNnD8fALlO7A2JM7c',$,'Wall Common Properties',$,(#30),#35); |
You are an IFC (Industry Foundation Classes) and BIM (Building Information Modeling) expert. Provide accurate, detailed, and practical answers to questions about IFC schemas, implementation, and usage in the AEC industry. | Create a complete IFC definition for a polygonal wall that is 380mm thick, 4500mm high, 5000mm long, made of Masonry, load-bearing, internal, with fire rating F120. | #1=IFCPROJECT('3MDa0qu6X5eBFeTDmhEULg',$,'Sample Project',$,$,$,$,$,$);
#2=IFCSIUNIT(*,.LENGTHUNIT.,.MILLI.,.METRE.);
#3=IFCSIUNIT(*,.AREAUNIT.,$,.SQUARE_METRE.);
#4=IFCSIUNIT(*,.VOLUMEUNIT.,$,.CUBIC_METRE.);
#5=IFCUNITASSIGNMENT((#2,#3,#4));
#6=IFCCARTESIANPOINT((0.,0.,0.));
#7=IFCDIRECTION((0.,0.,1.));
#8=IFCDIRECTION((1.,0.,0.));
#9=IFCAXIS2PLACEMENT3D(#6,#7,#8);
#10=IFCLOCALPLACEMENT($,#9);
#11=IFCBUILDING('2aG1gZj7PD2PztLOx2$yoY',$,'Building',$,$,#10,$,$,$,.ELEMENT.,$,$,$);
#12=IFCRELAGGREGATES('1Dd9Lcp$D9OQWkO1$Ykphl',$,'Building Container',$,#1,(#11));
#13=IFCBUILDINGSTOREY('1zS3wBH99AOguUiArbHbX8',$,'Level 1','First Level',$,#10,$,$,$,.ELEMENT.,0.);
#14=IFCRELAGGREGATES('2MH0qYHvH8xgpuPHJrPH8t',$,'Storey Container',$,#11,(#13));
#15=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A polygonal wall',$,#10,$,$,.POLYGONAL.);
#16=IFCMATERIAL('Masonry',$,$);
#17=IFCMATERIALLAYER(#16,380,.U.,$,$,$,$);
#18=IFCMATERIALLAYERSET((#17),'Masonry - 380mm',$);
#19=IFCMATERIALLAYERSETUSAGE(#18,.AXIS2.,.NEGATIVE.,190.0.,$);
#20=IFCRELASSOCIATESMATERIAL('3qGDYRqI98RApqr6xHdZKe',$,'Material to Wall',$,(#15),#19);
#21=IFCRECTANGLEPROFILEDEF(.AREA.,'Wall Profile',$,5000.,380.);
#22=IFCCARTESIANPOINT((0.,0.,0.));
#23=IFCDIRECTION((0.,0.,1.));
#24=IFCDIRECTION((1.,0.,0.));
#25=IFCAXIS2PLACEMENT3D(#22,#23,#24);
#26=IFCDIRECTION((0.,0.,1.));
#27=IFCEXTRUDEDAREASOLID(#21,#25,#26,4500.);
#28=IFCSHAPEREPRESENTATION(#1,'Body','SweptSolid',(#27));
#29=IFCPRODUCTDEFINITIONSHAPE($,$,(#28));
#30=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A polygonal wall',$,#10,#29,$,.POLYGONAL.);
#31=IFCRELCONTAINEDINSPATIALSTRUCTURE('2ZAHNO3Qn8BxK$rKH6cl4D',$,'Wall Containment',$,(#30),#13);
#32=IFCPROPERTYSINGLEVALUE('LoadBearing',$,IFCBOOLEAN(.T.),$);
#33=IFCPROPERTYSINGLEVALUE('IsExternal',$,IFCBOOLEAN(.F.),$);
#34=IFCPROPERTYSINGLEVALUE('FireRating',$,IFCLABEL('F120'),$);
#35=IFCPROPERTYSET('2grnRSqIL7hh$liSj0W0Ht',$,'Pset_WallCommon',$,(#32,#33,#34));
#36=IFCRELDEFINESBYPROPERTIES('35A0dwNnD8fALlO7A2JM7c',$,'Wall Common Properties',$,(#30),#35); |
You are an IFC (Industry Foundation Classes) and BIM (Building Information Modeling) expert. Provide accurate, detailed, and practical answers to questions about IFC schemas, implementation, and usage in the AEC industry. | Create a complete IFC definition for a parapet wall that is 150mm thick, 4000mm high, 3600mm long, made of Masonry, non-load-bearing, internal, with fire rating F60. | #1=IFCPROJECT('3MDa0qu6X5eBFeTDmhEULg',$,'Sample Project',$,$,$,$,$,$);
#2=IFCSIUNIT(*,.LENGTHUNIT.,.MILLI.,.METRE.);
#3=IFCSIUNIT(*,.AREAUNIT.,$,.SQUARE_METRE.);
#4=IFCSIUNIT(*,.VOLUMEUNIT.,$,.CUBIC_METRE.);
#5=IFCUNITASSIGNMENT((#2,#3,#4));
#6=IFCCARTESIANPOINT((0.,0.,0.));
#7=IFCDIRECTION((0.,0.,1.));
#8=IFCDIRECTION((1.,0.,0.));
#9=IFCAXIS2PLACEMENT3D(#6,#7,#8);
#10=IFCLOCALPLACEMENT($,#9);
#11=IFCBUILDING('2aG1gZj7PD2PztLOx2$yoY',$,'Building',$,$,#10,$,$,$,.ELEMENT.,$,$,$);
#12=IFCRELAGGREGATES('1Dd9Lcp$D9OQWkO1$Ykphl',$,'Building Container',$,#1,(#11));
#13=IFCBUILDINGSTOREY('1zS3wBH99AOguUiArbHbX8',$,'Level 1','First Level',$,#10,$,$,$,.ELEMENT.,0.);
#14=IFCRELAGGREGATES('2MH0qYHvH8xgpuPHJrPH8t',$,'Storey Container',$,#11,(#13));
#15=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A parapet wall',$,#10,$,$,.PARAPET.);
#16=IFCMATERIAL('Masonry',$,$);
#17=IFCMATERIALLAYER(#16,150,.U.,$,$,$,$);
#18=IFCMATERIALLAYERSET((#17),'Masonry - 150mm',$);
#19=IFCMATERIALLAYERSETUSAGE(#18,.AXIS2.,.NEGATIVE.,75.0.,$);
#20=IFCRELASSOCIATESMATERIAL('3qGDYRqI98RApqr6xHdZKe',$,'Material to Wall',$,(#15),#19);
#21=IFCRECTANGLEPROFILEDEF(.AREA.,'Wall Profile',$,3600.,150.);
#22=IFCCARTESIANPOINT((0.,0.,0.));
#23=IFCDIRECTION((0.,0.,1.));
#24=IFCDIRECTION((1.,0.,0.));
#25=IFCAXIS2PLACEMENT3D(#22,#23,#24);
#26=IFCDIRECTION((0.,0.,1.));
#27=IFCEXTRUDEDAREASOLID(#21,#25,#26,4000.);
#28=IFCSHAPEREPRESENTATION(#1,'Body','SweptSolid',(#27));
#29=IFCPRODUCTDEFINITIONSHAPE($,$,(#28));
#30=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A parapet wall',$,#10,#29,$,.PARAPET.);
#31=IFCRELCONTAINEDINSPATIALSTRUCTURE('2ZAHNO3Qn8BxK$rKH6cl4D',$,'Wall Containment',$,(#30),#13);
#32=IFCPROPERTYSINGLEVALUE('LoadBearing',$,IFCBOOLEAN(.F.),$);
#33=IFCPROPERTYSINGLEVALUE('IsExternal',$,IFCBOOLEAN(.F.),$);
#34=IFCPROPERTYSINGLEVALUE('FireRating',$,IFCLABEL('F60'),$);
#35=IFCPROPERTYSET('2grnRSqIL7hh$liSj0W0Ht',$,'Pset_WallCommon',$,(#32,#33,#34));
#36=IFCRELDEFINESBYPROPERTIES('35A0dwNnD8fALlO7A2JM7c',$,'Wall Common Properties',$,(#30),#35); |
You are an IFC (Industry Foundation Classes) and BIM (Building Information Modeling) expert. Provide accurate, detailed, and practical answers to questions about IFC schemas, implementation, and usage in the AEC industry. | Create a complete IFC definition for a movable wall that is 50mm thick, 3000mm high, 4500mm long, made of Timber, load-bearing, external, with fire rating F180. | #1=IFCPROJECT('3MDa0qu6X5eBFeTDmhEULg',$,'Sample Project',$,$,$,$,$,$);
#2=IFCSIUNIT(*,.LENGTHUNIT.,.MILLI.,.METRE.);
#3=IFCSIUNIT(*,.AREAUNIT.,$,.SQUARE_METRE.);
#4=IFCSIUNIT(*,.VOLUMEUNIT.,$,.CUBIC_METRE.);
#5=IFCUNITASSIGNMENT((#2,#3,#4));
#6=IFCCARTESIANPOINT((0.,0.,0.));
#7=IFCDIRECTION((0.,0.,1.));
#8=IFCDIRECTION((1.,0.,0.));
#9=IFCAXIS2PLACEMENT3D(#6,#7,#8);
#10=IFCLOCALPLACEMENT($,#9);
#11=IFCBUILDING('2aG1gZj7PD2PztLOx2$yoY',$,'Building',$,$,#10,$,$,$,.ELEMENT.,$,$,$);
#12=IFCRELAGGREGATES('1Dd9Lcp$D9OQWkO1$Ykphl',$,'Building Container',$,#1,(#11));
#13=IFCBUILDINGSTOREY('1zS3wBH99AOguUiArbHbX8',$,'Level 1','First Level',$,#10,$,$,$,.ELEMENT.,0.);
#14=IFCRELAGGREGATES('2MH0qYHvH8xgpuPHJrPH8t',$,'Storey Container',$,#11,(#13));
#15=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A movable wall',$,#10,$,$,.MOVABLE.);
#16=IFCMATERIAL('Timber',$,$);
#17=IFCMATERIALLAYER(#16,50,.U.,$,$,$,$);
#18=IFCMATERIALLAYERSET((#17),'Timber - 50mm',$);
#19=IFCMATERIALLAYERSETUSAGE(#18,.AXIS2.,.NEGATIVE.,25.0.,$);
#20=IFCRELASSOCIATESMATERIAL('3qGDYRqI98RApqr6xHdZKe',$,'Material to Wall',$,(#15),#19);
#21=IFCRECTANGLEPROFILEDEF(.AREA.,'Wall Profile',$,4500.,50.);
#22=IFCCARTESIANPOINT((0.,0.,0.));
#23=IFCDIRECTION((0.,0.,1.));
#24=IFCDIRECTION((1.,0.,0.));
#25=IFCAXIS2PLACEMENT3D(#22,#23,#24);
#26=IFCDIRECTION((0.,0.,1.));
#27=IFCEXTRUDEDAREASOLID(#21,#25,#26,3000.);
#28=IFCSHAPEREPRESENTATION(#1,'Body','SweptSolid',(#27));
#29=IFCPRODUCTDEFINITIONSHAPE($,$,(#28));
#30=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A movable wall',$,#10,#29,$,.MOVABLE.);
#31=IFCRELCONTAINEDINSPATIALSTRUCTURE('2ZAHNO3Qn8BxK$rKH6cl4D',$,'Wall Containment',$,(#30),#13);
#32=IFCPROPERTYSINGLEVALUE('LoadBearing',$,IFCBOOLEAN(.T.),$);
#33=IFCPROPERTYSINGLEVALUE('IsExternal',$,IFCBOOLEAN(.T.),$);
#34=IFCPROPERTYSINGLEVALUE('FireRating',$,IFCLABEL('F180'),$);
#35=IFCPROPERTYSET('2grnRSqIL7hh$liSj0W0Ht',$,'Pset_WallCommon',$,(#32,#33,#34));
#36=IFCRELDEFINESBYPROPERTIES('35A0dwNnD8fALlO7A2JM7c',$,'Wall Common Properties',$,(#30),#35); |
You are an IFC (Industry Foundation Classes) and BIM (Building Information Modeling) expert. Provide accurate, detailed, and practical answers to questions about IFC schemas, implementation, and usage in the AEC industry. | Create a complete IFC definition for a elementedwall wall that is 50mm thick, 3300mm high, 3000mm long, made of Timber, load-bearing, external, with fire rating F60. | #1=IFCPROJECT('3MDa0qu6X5eBFeTDmhEULg',$,'Sample Project',$,$,$,$,$,$);
#2=IFCSIUNIT(*,.LENGTHUNIT.,.MILLI.,.METRE.);
#3=IFCSIUNIT(*,.AREAUNIT.,$,.SQUARE_METRE.);
#4=IFCSIUNIT(*,.VOLUMEUNIT.,$,.CUBIC_METRE.);
#5=IFCUNITASSIGNMENT((#2,#3,#4));
#6=IFCCARTESIANPOINT((0.,0.,0.));
#7=IFCDIRECTION((0.,0.,1.));
#8=IFCDIRECTION((1.,0.,0.));
#9=IFCAXIS2PLACEMENT3D(#6,#7,#8);
#10=IFCLOCALPLACEMENT($,#9);
#11=IFCBUILDING('2aG1gZj7PD2PztLOx2$yoY',$,'Building',$,$,#10,$,$,$,.ELEMENT.,$,$,$);
#12=IFCRELAGGREGATES('1Dd9Lcp$D9OQWkO1$Ykphl',$,'Building Container',$,#1,(#11));
#13=IFCBUILDINGSTOREY('1zS3wBH99AOguUiArbHbX8',$,'Level 1','First Level',$,#10,$,$,$,.ELEMENT.,0.);
#14=IFCRELAGGREGATES('2MH0qYHvH8xgpuPHJrPH8t',$,'Storey Container',$,#11,(#13));
#15=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A elementedwall wall',$,#10,$,$,.ELEMENTEDWALL.);
#16=IFCMATERIAL('Timber',$,$);
#17=IFCMATERIALLAYER(#16,50,.U.,$,$,$,$);
#18=IFCMATERIALLAYERSET((#17),'Timber - 50mm',$);
#19=IFCMATERIALLAYERSETUSAGE(#18,.AXIS2.,.NEGATIVE.,25.0.,$);
#20=IFCRELASSOCIATESMATERIAL('3qGDYRqI98RApqr6xHdZKe',$,'Material to Wall',$,(#15),#19);
#21=IFCRECTANGLEPROFILEDEF(.AREA.,'Wall Profile',$,3000.,50.);
#22=IFCCARTESIANPOINT((0.,0.,0.));
#23=IFCDIRECTION((0.,0.,1.));
#24=IFCDIRECTION((1.,0.,0.));
#25=IFCAXIS2PLACEMENT3D(#22,#23,#24);
#26=IFCDIRECTION((0.,0.,1.));
#27=IFCEXTRUDEDAREASOLID(#21,#25,#26,3300.);
#28=IFCSHAPEREPRESENTATION(#1,'Body','SweptSolid',(#27));
#29=IFCPRODUCTDEFINITIONSHAPE($,$,(#28));
#30=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A elementedwall wall',$,#10,#29,$,.ELEMENTEDWALL.);
#31=IFCRELCONTAINEDINSPATIALSTRUCTURE('2ZAHNO3Qn8BxK$rKH6cl4D',$,'Wall Containment',$,(#30),#13);
#32=IFCPROPERTYSINGLEVALUE('LoadBearing',$,IFCBOOLEAN(.T.),$);
#33=IFCPROPERTYSINGLEVALUE('IsExternal',$,IFCBOOLEAN(.T.),$);
#34=IFCPROPERTYSINGLEVALUE('FireRating',$,IFCLABEL('F60'),$);
#35=IFCPROPERTYSET('2grnRSqIL7hh$liSj0W0Ht',$,'Pset_WallCommon',$,(#32,#33,#34));
#36=IFCRELDEFINESBYPROPERTIES('35A0dwNnD8fALlO7A2JM7c',$,'Wall Common Properties',$,(#30),#35); |
You are an IFC (Industry Foundation Classes) and BIM (Building Information Modeling) expert. Provide accurate, detailed, and practical answers to questions about IFC schemas, implementation, and usage in the AEC industry. | Create a complete IFC definition for a movable wall that is 250mm thick, 3000mm high, 5000mm long, made of Masonry, non-load-bearing, external, with fire rating F60. | #1=IFCPROJECT('3MDa0qu6X5eBFeTDmhEULg',$,'Sample Project',$,$,$,$,$,$);
#2=IFCSIUNIT(*,.LENGTHUNIT.,.MILLI.,.METRE.);
#3=IFCSIUNIT(*,.AREAUNIT.,$,.SQUARE_METRE.);
#4=IFCSIUNIT(*,.VOLUMEUNIT.,$,.CUBIC_METRE.);
#5=IFCUNITASSIGNMENT((#2,#3,#4));
#6=IFCCARTESIANPOINT((0.,0.,0.));
#7=IFCDIRECTION((0.,0.,1.));
#8=IFCDIRECTION((1.,0.,0.));
#9=IFCAXIS2PLACEMENT3D(#6,#7,#8);
#10=IFCLOCALPLACEMENT($,#9);
#11=IFCBUILDING('2aG1gZj7PD2PztLOx2$yoY',$,'Building',$,$,#10,$,$,$,.ELEMENT.,$,$,$);
#12=IFCRELAGGREGATES('1Dd9Lcp$D9OQWkO1$Ykphl',$,'Building Container',$,#1,(#11));
#13=IFCBUILDINGSTOREY('1zS3wBH99AOguUiArbHbX8',$,'Level 1','First Level',$,#10,$,$,$,.ELEMENT.,0.);
#14=IFCRELAGGREGATES('2MH0qYHvH8xgpuPHJrPH8t',$,'Storey Container',$,#11,(#13));
#15=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A movable wall',$,#10,$,$,.MOVABLE.);
#16=IFCMATERIAL('Masonry',$,$);
#17=IFCMATERIALLAYER(#16,250,.U.,$,$,$,$);
#18=IFCMATERIALLAYERSET((#17),'Masonry - 250mm',$);
#19=IFCMATERIALLAYERSETUSAGE(#18,.AXIS2.,.NEGATIVE.,125.0.,$);
#20=IFCRELASSOCIATESMATERIAL('3qGDYRqI98RApqr6xHdZKe',$,'Material to Wall',$,(#15),#19);
#21=IFCRECTANGLEPROFILEDEF(.AREA.,'Wall Profile',$,5000.,250.);
#22=IFCCARTESIANPOINT((0.,0.,0.));
#23=IFCDIRECTION((0.,0.,1.));
#24=IFCDIRECTION((1.,0.,0.));
#25=IFCAXIS2PLACEMENT3D(#22,#23,#24);
#26=IFCDIRECTION((0.,0.,1.));
#27=IFCEXTRUDEDAREASOLID(#21,#25,#26,3000.);
#28=IFCSHAPEREPRESENTATION(#1,'Body','SweptSolid',(#27));
#29=IFCPRODUCTDEFINITIONSHAPE($,$,(#28));
#30=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A movable wall',$,#10,#29,$,.MOVABLE.);
#31=IFCRELCONTAINEDINSPATIALSTRUCTURE('2ZAHNO3Qn8BxK$rKH6cl4D',$,'Wall Containment',$,(#30),#13);
#32=IFCPROPERTYSINGLEVALUE('LoadBearing',$,IFCBOOLEAN(.F.),$);
#33=IFCPROPERTYSINGLEVALUE('IsExternal',$,IFCBOOLEAN(.T.),$);
#34=IFCPROPERTYSINGLEVALUE('FireRating',$,IFCLABEL('F60'),$);
#35=IFCPROPERTYSET('2grnRSqIL7hh$liSj0W0Ht',$,'Pset_WallCommon',$,(#32,#33,#34));
#36=IFCRELDEFINESBYPROPERTIES('35A0dwNnD8fALlO7A2JM7c',$,'Wall Common Properties',$,(#30),#35); |
You are an IFC (Industry Foundation Classes) and BIM (Building Information Modeling) expert. Provide accurate, detailed, and practical answers to questions about IFC schemas, implementation, and usage in the AEC industry. | Create a complete IFC definition for a partitioning wall that is 300mm thick, 3600mm high, 3600mm long, made of Masonry, load-bearing, external, with fire rating F30. | #1=IFCPROJECT('3MDa0qu6X5eBFeTDmhEULg',$,'Sample Project',$,$,$,$,$,$);
#2=IFCSIUNIT(*,.LENGTHUNIT.,.MILLI.,.METRE.);
#3=IFCSIUNIT(*,.AREAUNIT.,$,.SQUARE_METRE.);
#4=IFCSIUNIT(*,.VOLUMEUNIT.,$,.CUBIC_METRE.);
#5=IFCUNITASSIGNMENT((#2,#3,#4));
#6=IFCCARTESIANPOINT((0.,0.,0.));
#7=IFCDIRECTION((0.,0.,1.));
#8=IFCDIRECTION((1.,0.,0.));
#9=IFCAXIS2PLACEMENT3D(#6,#7,#8);
#10=IFCLOCALPLACEMENT($,#9);
#11=IFCBUILDING('2aG1gZj7PD2PztLOx2$yoY',$,'Building',$,$,#10,$,$,$,.ELEMENT.,$,$,$);
#12=IFCRELAGGREGATES('1Dd9Lcp$D9OQWkO1$Ykphl',$,'Building Container',$,#1,(#11));
#13=IFCBUILDINGSTOREY('1zS3wBH99AOguUiArbHbX8',$,'Level 1','First Level',$,#10,$,$,$,.ELEMENT.,0.);
#14=IFCRELAGGREGATES('2MH0qYHvH8xgpuPHJrPH8t',$,'Storey Container',$,#11,(#13));
#15=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A partitioning wall',$,#10,$,$,.PARTITIONING.);
#16=IFCMATERIAL('Masonry',$,$);
#17=IFCMATERIALLAYER(#16,300,.U.,$,$,$,$);
#18=IFCMATERIALLAYERSET((#17),'Masonry - 300mm',$);
#19=IFCMATERIALLAYERSETUSAGE(#18,.AXIS2.,.NEGATIVE.,150.0.,$);
#20=IFCRELASSOCIATESMATERIAL('3qGDYRqI98RApqr6xHdZKe',$,'Material to Wall',$,(#15),#19);
#21=IFCRECTANGLEPROFILEDEF(.AREA.,'Wall Profile',$,3600.,300.);
#22=IFCCARTESIANPOINT((0.,0.,0.));
#23=IFCDIRECTION((0.,0.,1.));
#24=IFCDIRECTION((1.,0.,0.));
#25=IFCAXIS2PLACEMENT3D(#22,#23,#24);
#26=IFCDIRECTION((0.,0.,1.));
#27=IFCEXTRUDEDAREASOLID(#21,#25,#26,3600.);
#28=IFCSHAPEREPRESENTATION(#1,'Body','SweptSolid',(#27));
#29=IFCPRODUCTDEFINITIONSHAPE($,$,(#28));
#30=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A partitioning wall',$,#10,#29,$,.PARTITIONING.);
#31=IFCRELCONTAINEDINSPATIALSTRUCTURE('2ZAHNO3Qn8BxK$rKH6cl4D',$,'Wall Containment',$,(#30),#13);
#32=IFCPROPERTYSINGLEVALUE('LoadBearing',$,IFCBOOLEAN(.T.),$);
#33=IFCPROPERTYSINGLEVALUE('IsExternal',$,IFCBOOLEAN(.T.),$);
#34=IFCPROPERTYSINGLEVALUE('FireRating',$,IFCLABEL('F30'),$);
#35=IFCPROPERTYSET('2grnRSqIL7hh$liSj0W0Ht',$,'Pset_WallCommon',$,(#32,#33,#34));
#36=IFCRELDEFINESBYPROPERTIES('35A0dwNnD8fALlO7A2JM7c',$,'Wall Common Properties',$,(#30),#35); |
You are an IFC (Industry Foundation Classes) and BIM (Building Information Modeling) expert. Provide accurate, detailed, and practical answers to questions about IFC schemas, implementation, and usage in the AEC industry. | Create a complete IFC definition for a polygonal wall that is 50mm thick, 2400mm high, 6000mm long, made of Timber, non-load-bearing, internal, with fire rating F180. | #1=IFCPROJECT('3MDa0qu6X5eBFeTDmhEULg',$,'Sample Project',$,$,$,$,$,$);
#2=IFCSIUNIT(*,.LENGTHUNIT.,.MILLI.,.METRE.);
#3=IFCSIUNIT(*,.AREAUNIT.,$,.SQUARE_METRE.);
#4=IFCSIUNIT(*,.VOLUMEUNIT.,$,.CUBIC_METRE.);
#5=IFCUNITASSIGNMENT((#2,#3,#4));
#6=IFCCARTESIANPOINT((0.,0.,0.));
#7=IFCDIRECTION((0.,0.,1.));
#8=IFCDIRECTION((1.,0.,0.));
#9=IFCAXIS2PLACEMENT3D(#6,#7,#8);
#10=IFCLOCALPLACEMENT($,#9);
#11=IFCBUILDING('2aG1gZj7PD2PztLOx2$yoY',$,'Building',$,$,#10,$,$,$,.ELEMENT.,$,$,$);
#12=IFCRELAGGREGATES('1Dd9Lcp$D9OQWkO1$Ykphl',$,'Building Container',$,#1,(#11));
#13=IFCBUILDINGSTOREY('1zS3wBH99AOguUiArbHbX8',$,'Level 1','First Level',$,#10,$,$,$,.ELEMENT.,0.);
#14=IFCRELAGGREGATES('2MH0qYHvH8xgpuPHJrPH8t',$,'Storey Container',$,#11,(#13));
#15=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A polygonal wall',$,#10,$,$,.POLYGONAL.);
#16=IFCMATERIAL('Timber',$,$);
#17=IFCMATERIALLAYER(#16,50,.U.,$,$,$,$);
#18=IFCMATERIALLAYERSET((#17),'Timber - 50mm',$);
#19=IFCMATERIALLAYERSETUSAGE(#18,.AXIS2.,.NEGATIVE.,25.0.,$);
#20=IFCRELASSOCIATESMATERIAL('3qGDYRqI98RApqr6xHdZKe',$,'Material to Wall',$,(#15),#19);
#21=IFCRECTANGLEPROFILEDEF(.AREA.,'Wall Profile',$,6000.,50.);
#22=IFCCARTESIANPOINT((0.,0.,0.));
#23=IFCDIRECTION((0.,0.,1.));
#24=IFCDIRECTION((1.,0.,0.));
#25=IFCAXIS2PLACEMENT3D(#22,#23,#24);
#26=IFCDIRECTION((0.,0.,1.));
#27=IFCEXTRUDEDAREASOLID(#21,#25,#26,2400.);
#28=IFCSHAPEREPRESENTATION(#1,'Body','SweptSolid',(#27));
#29=IFCPRODUCTDEFINITIONSHAPE($,$,(#28));
#30=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A polygonal wall',$,#10,#29,$,.POLYGONAL.);
#31=IFCRELCONTAINEDINSPATIALSTRUCTURE('2ZAHNO3Qn8BxK$rKH6cl4D',$,'Wall Containment',$,(#30),#13);
#32=IFCPROPERTYSINGLEVALUE('LoadBearing',$,IFCBOOLEAN(.F.),$);
#33=IFCPROPERTYSINGLEVALUE('IsExternal',$,IFCBOOLEAN(.F.),$);
#34=IFCPROPERTYSINGLEVALUE('FireRating',$,IFCLABEL('F180'),$);
#35=IFCPROPERTYSET('2grnRSqIL7hh$liSj0W0Ht',$,'Pset_WallCommon',$,(#32,#33,#34));
#36=IFCRELDEFINESBYPROPERTIES('35A0dwNnD8fALlO7A2JM7c',$,'Wall Common Properties',$,(#30),#35); |
You are an IFC (Industry Foundation Classes) and BIM (Building Information Modeling) expert. Provide accurate, detailed, and practical answers to questions about IFC schemas, implementation, and usage in the AEC industry. | Create a complete IFC definition for a parapet wall that is 200mm thick, 3600mm high, 3600mm long, made of Timber, load-bearing, internal, with fire rating F60. | #1=IFCPROJECT('3MDa0qu6X5eBFeTDmhEULg',$,'Sample Project',$,$,$,$,$,$);
#2=IFCSIUNIT(*,.LENGTHUNIT.,.MILLI.,.METRE.);
#3=IFCSIUNIT(*,.AREAUNIT.,$,.SQUARE_METRE.);
#4=IFCSIUNIT(*,.VOLUMEUNIT.,$,.CUBIC_METRE.);
#5=IFCUNITASSIGNMENT((#2,#3,#4));
#6=IFCCARTESIANPOINT((0.,0.,0.));
#7=IFCDIRECTION((0.,0.,1.));
#8=IFCDIRECTION((1.,0.,0.));
#9=IFCAXIS2PLACEMENT3D(#6,#7,#8);
#10=IFCLOCALPLACEMENT($,#9);
#11=IFCBUILDING('2aG1gZj7PD2PztLOx2$yoY',$,'Building',$,$,#10,$,$,$,.ELEMENT.,$,$,$);
#12=IFCRELAGGREGATES('1Dd9Lcp$D9OQWkO1$Ykphl',$,'Building Container',$,#1,(#11));
#13=IFCBUILDINGSTOREY('1zS3wBH99AOguUiArbHbX8',$,'Level 1','First Level',$,#10,$,$,$,.ELEMENT.,0.);
#14=IFCRELAGGREGATES('2MH0qYHvH8xgpuPHJrPH8t',$,'Storey Container',$,#11,(#13));
#15=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A parapet wall',$,#10,$,$,.PARAPET.);
#16=IFCMATERIAL('Timber',$,$);
#17=IFCMATERIALLAYER(#16,200,.U.,$,$,$,$);
#18=IFCMATERIALLAYERSET((#17),'Timber - 200mm',$);
#19=IFCMATERIALLAYERSETUSAGE(#18,.AXIS2.,.NEGATIVE.,100.0.,$);
#20=IFCRELASSOCIATESMATERIAL('3qGDYRqI98RApqr6xHdZKe',$,'Material to Wall',$,(#15),#19);
#21=IFCRECTANGLEPROFILEDEF(.AREA.,'Wall Profile',$,3600.,200.);
#22=IFCCARTESIANPOINT((0.,0.,0.));
#23=IFCDIRECTION((0.,0.,1.));
#24=IFCDIRECTION((1.,0.,0.));
#25=IFCAXIS2PLACEMENT3D(#22,#23,#24);
#26=IFCDIRECTION((0.,0.,1.));
#27=IFCEXTRUDEDAREASOLID(#21,#25,#26,3600.);
#28=IFCSHAPEREPRESENTATION(#1,'Body','SweptSolid',(#27));
#29=IFCPRODUCTDEFINITIONSHAPE($,$,(#28));
#30=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A parapet wall',$,#10,#29,$,.PARAPET.);
#31=IFCRELCONTAINEDINSPATIALSTRUCTURE('2ZAHNO3Qn8BxK$rKH6cl4D',$,'Wall Containment',$,(#30),#13);
#32=IFCPROPERTYSINGLEVALUE('LoadBearing',$,IFCBOOLEAN(.T.),$);
#33=IFCPROPERTYSINGLEVALUE('IsExternal',$,IFCBOOLEAN(.F.),$);
#34=IFCPROPERTYSINGLEVALUE('FireRating',$,IFCLABEL('F60'),$);
#35=IFCPROPERTYSET('2grnRSqIL7hh$liSj0W0Ht',$,'Pset_WallCommon',$,(#32,#33,#34));
#36=IFCRELDEFINESBYPROPERTIES('35A0dwNnD8fALlO7A2JM7c',$,'Wall Common Properties',$,(#30),#35); |
You are an IFC (Industry Foundation Classes) and BIM (Building Information Modeling) expert. Provide accurate, detailed, and practical answers to questions about IFC schemas, implementation, and usage in the AEC industry. | Create a complete IFC definition for a parapet wall that is 150mm thick, 3600mm high, 3000mm long, made of Masonry, non-load-bearing, internal, with fire rating F30. | #1=IFCPROJECT('3MDa0qu6X5eBFeTDmhEULg',$,'Sample Project',$,$,$,$,$,$);
#2=IFCSIUNIT(*,.LENGTHUNIT.,.MILLI.,.METRE.);
#3=IFCSIUNIT(*,.AREAUNIT.,$,.SQUARE_METRE.);
#4=IFCSIUNIT(*,.VOLUMEUNIT.,$,.CUBIC_METRE.);
#5=IFCUNITASSIGNMENT((#2,#3,#4));
#6=IFCCARTESIANPOINT((0.,0.,0.));
#7=IFCDIRECTION((0.,0.,1.));
#8=IFCDIRECTION((1.,0.,0.));
#9=IFCAXIS2PLACEMENT3D(#6,#7,#8);
#10=IFCLOCALPLACEMENT($,#9);
#11=IFCBUILDING('2aG1gZj7PD2PztLOx2$yoY',$,'Building',$,$,#10,$,$,$,.ELEMENT.,$,$,$);
#12=IFCRELAGGREGATES('1Dd9Lcp$D9OQWkO1$Ykphl',$,'Building Container',$,#1,(#11));
#13=IFCBUILDINGSTOREY('1zS3wBH99AOguUiArbHbX8',$,'Level 1','First Level',$,#10,$,$,$,.ELEMENT.,0.);
#14=IFCRELAGGREGATES('2MH0qYHvH8xgpuPHJrPH8t',$,'Storey Container',$,#11,(#13));
#15=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A parapet wall',$,#10,$,$,.PARAPET.);
#16=IFCMATERIAL('Masonry',$,$);
#17=IFCMATERIALLAYER(#16,150,.U.,$,$,$,$);
#18=IFCMATERIALLAYERSET((#17),'Masonry - 150mm',$);
#19=IFCMATERIALLAYERSETUSAGE(#18,.AXIS2.,.NEGATIVE.,75.0.,$);
#20=IFCRELASSOCIATESMATERIAL('3qGDYRqI98RApqr6xHdZKe',$,'Material to Wall',$,(#15),#19);
#21=IFCRECTANGLEPROFILEDEF(.AREA.,'Wall Profile',$,3000.,150.);
#22=IFCCARTESIANPOINT((0.,0.,0.));
#23=IFCDIRECTION((0.,0.,1.));
#24=IFCDIRECTION((1.,0.,0.));
#25=IFCAXIS2PLACEMENT3D(#22,#23,#24);
#26=IFCDIRECTION((0.,0.,1.));
#27=IFCEXTRUDEDAREASOLID(#21,#25,#26,3600.);
#28=IFCSHAPEREPRESENTATION(#1,'Body','SweptSolid',(#27));
#29=IFCPRODUCTDEFINITIONSHAPE($,$,(#28));
#30=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A parapet wall',$,#10,#29,$,.PARAPET.);
#31=IFCRELCONTAINEDINSPATIALSTRUCTURE('2ZAHNO3Qn8BxK$rKH6cl4D',$,'Wall Containment',$,(#30),#13);
#32=IFCPROPERTYSINGLEVALUE('LoadBearing',$,IFCBOOLEAN(.F.),$);
#33=IFCPROPERTYSINGLEVALUE('IsExternal',$,IFCBOOLEAN(.F.),$);
#34=IFCPROPERTYSINGLEVALUE('FireRating',$,IFCLABEL('F30'),$);
#35=IFCPROPERTYSET('2grnRSqIL7hh$liSj0W0Ht',$,'Pset_WallCommon',$,(#32,#33,#34));
#36=IFCRELDEFINESBYPROPERTIES('35A0dwNnD8fALlO7A2JM7c',$,'Wall Common Properties',$,(#30),#35); |
You are an IFC (Industry Foundation Classes) and BIM (Building Information Modeling) expert. Provide accurate, detailed, and practical answers to questions about IFC schemas, implementation, and usage in the AEC industry. | Create a complete IFC definition for a solidwall wall that is 75mm thick, 4500mm high, 5000mm long, made of Timber, non-load-bearing, internal, with fire rating F120. | #1=IFCPROJECT('3MDa0qu6X5eBFeTDmhEULg',$,'Sample Project',$,$,$,$,$,$);
#2=IFCSIUNIT(*,.LENGTHUNIT.,.MILLI.,.METRE.);
#3=IFCSIUNIT(*,.AREAUNIT.,$,.SQUARE_METRE.);
#4=IFCSIUNIT(*,.VOLUMEUNIT.,$,.CUBIC_METRE.);
#5=IFCUNITASSIGNMENT((#2,#3,#4));
#6=IFCCARTESIANPOINT((0.,0.,0.));
#7=IFCDIRECTION((0.,0.,1.));
#8=IFCDIRECTION((1.,0.,0.));
#9=IFCAXIS2PLACEMENT3D(#6,#7,#8);
#10=IFCLOCALPLACEMENT($,#9);
#11=IFCBUILDING('2aG1gZj7PD2PztLOx2$yoY',$,'Building',$,$,#10,$,$,$,.ELEMENT.,$,$,$);
#12=IFCRELAGGREGATES('1Dd9Lcp$D9OQWkO1$Ykphl',$,'Building Container',$,#1,(#11));
#13=IFCBUILDINGSTOREY('1zS3wBH99AOguUiArbHbX8',$,'Level 1','First Level',$,#10,$,$,$,.ELEMENT.,0.);
#14=IFCRELAGGREGATES('2MH0qYHvH8xgpuPHJrPH8t',$,'Storey Container',$,#11,(#13));
#15=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A solidwall wall',$,#10,$,$,.SOLIDWALL.);
#16=IFCMATERIAL('Timber',$,$);
#17=IFCMATERIALLAYER(#16,75,.U.,$,$,$,$);
#18=IFCMATERIALLAYERSET((#17),'Timber - 75mm',$);
#19=IFCMATERIALLAYERSETUSAGE(#18,.AXIS2.,.NEGATIVE.,37.5.,$);
#20=IFCRELASSOCIATESMATERIAL('3qGDYRqI98RApqr6xHdZKe',$,'Material to Wall',$,(#15),#19);
#21=IFCRECTANGLEPROFILEDEF(.AREA.,'Wall Profile',$,5000.,75.);
#22=IFCCARTESIANPOINT((0.,0.,0.));
#23=IFCDIRECTION((0.,0.,1.));
#24=IFCDIRECTION((1.,0.,0.));
#25=IFCAXIS2PLACEMENT3D(#22,#23,#24);
#26=IFCDIRECTION((0.,0.,1.));
#27=IFCEXTRUDEDAREASOLID(#21,#25,#26,4500.);
#28=IFCSHAPEREPRESENTATION(#1,'Body','SweptSolid',(#27));
#29=IFCPRODUCTDEFINITIONSHAPE($,$,(#28));
#30=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A solidwall wall',$,#10,#29,$,.SOLIDWALL.);
#31=IFCRELCONTAINEDINSPATIALSTRUCTURE('2ZAHNO3Qn8BxK$rKH6cl4D',$,'Wall Containment',$,(#30),#13);
#32=IFCPROPERTYSINGLEVALUE('LoadBearing',$,IFCBOOLEAN(.F.),$);
#33=IFCPROPERTYSINGLEVALUE('IsExternal',$,IFCBOOLEAN(.F.),$);
#34=IFCPROPERTYSINGLEVALUE('FireRating',$,IFCLABEL('F120'),$);
#35=IFCPROPERTYSET('2grnRSqIL7hh$liSj0W0Ht',$,'Pset_WallCommon',$,(#32,#33,#34));
#36=IFCRELDEFINESBYPROPERTIES('35A0dwNnD8fALlO7A2JM7c',$,'Wall Common Properties',$,(#30),#35); |
You are an IFC (Industry Foundation Classes) and BIM (Building Information Modeling) expert. Provide accurate, detailed, and practical answers to questions about IFC schemas, implementation, and usage in the AEC industry. | Create a complete IFC definition for a partitioning wall that is 350mm thick, 4500mm high, 7500mm long, made of Concrete, load-bearing, internal, with fire rating F120. | #1=IFCPROJECT('3MDa0qu6X5eBFeTDmhEULg',$,'Sample Project',$,$,$,$,$,$);
#2=IFCSIUNIT(*,.LENGTHUNIT.,.MILLI.,.METRE.);
#3=IFCSIUNIT(*,.AREAUNIT.,$,.SQUARE_METRE.);
#4=IFCSIUNIT(*,.VOLUMEUNIT.,$,.CUBIC_METRE.);
#5=IFCUNITASSIGNMENT((#2,#3,#4));
#6=IFCCARTESIANPOINT((0.,0.,0.));
#7=IFCDIRECTION((0.,0.,1.));
#8=IFCDIRECTION((1.,0.,0.));
#9=IFCAXIS2PLACEMENT3D(#6,#7,#8);
#10=IFCLOCALPLACEMENT($,#9);
#11=IFCBUILDING('2aG1gZj7PD2PztLOx2$yoY',$,'Building',$,$,#10,$,$,$,.ELEMENT.,$,$,$);
#12=IFCRELAGGREGATES('1Dd9Lcp$D9OQWkO1$Ykphl',$,'Building Container',$,#1,(#11));
#13=IFCBUILDINGSTOREY('1zS3wBH99AOguUiArbHbX8',$,'Level 1','First Level',$,#10,$,$,$,.ELEMENT.,0.);
#14=IFCRELAGGREGATES('2MH0qYHvH8xgpuPHJrPH8t',$,'Storey Container',$,#11,(#13));
#15=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A partitioning wall',$,#10,$,$,.PARTITIONING.);
#16=IFCMATERIAL('Concrete',$,$);
#17=IFCMATERIALLAYER(#16,350,.U.,$,$,$,$);
#18=IFCMATERIALLAYERSET((#17),'Concrete - 350mm',$);
#19=IFCMATERIALLAYERSETUSAGE(#18,.AXIS2.,.NEGATIVE.,175.0.,$);
#20=IFCRELASSOCIATESMATERIAL('3qGDYRqI98RApqr6xHdZKe',$,'Material to Wall',$,(#15),#19);
#21=IFCRECTANGLEPROFILEDEF(.AREA.,'Wall Profile',$,7500.,350.);
#22=IFCCARTESIANPOINT((0.,0.,0.));
#23=IFCDIRECTION((0.,0.,1.));
#24=IFCDIRECTION((1.,0.,0.));
#25=IFCAXIS2PLACEMENT3D(#22,#23,#24);
#26=IFCDIRECTION((0.,0.,1.));
#27=IFCEXTRUDEDAREASOLID(#21,#25,#26,4500.);
#28=IFCSHAPEREPRESENTATION(#1,'Body','SweptSolid',(#27));
#29=IFCPRODUCTDEFINITIONSHAPE($,$,(#28));
#30=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A partitioning wall',$,#10,#29,$,.PARTITIONING.);
#31=IFCRELCONTAINEDINSPATIALSTRUCTURE('2ZAHNO3Qn8BxK$rKH6cl4D',$,'Wall Containment',$,(#30),#13);
#32=IFCPROPERTYSINGLEVALUE('LoadBearing',$,IFCBOOLEAN(.T.),$);
#33=IFCPROPERTYSINGLEVALUE('IsExternal',$,IFCBOOLEAN(.F.),$);
#34=IFCPROPERTYSINGLEVALUE('FireRating',$,IFCLABEL('F120'),$);
#35=IFCPROPERTYSET('2grnRSqIL7hh$liSj0W0Ht',$,'Pset_WallCommon',$,(#32,#33,#34));
#36=IFCRELDEFINESBYPROPERTIES('35A0dwNnD8fALlO7A2JM7c',$,'Wall Common Properties',$,(#30),#35); |
You are an IFC (Industry Foundation Classes) and BIM (Building Information Modeling) expert. Provide accurate, detailed, and practical answers to questions about IFC schemas, implementation, and usage in the AEC industry. | Create a complete IFC definition for a elementedwall wall that is 125mm thick, 2700mm high, 12000mm long, made of Timber, non-load-bearing, external, with fire rating F180. | #1=IFCPROJECT('3MDa0qu6X5eBFeTDmhEULg',$,'Sample Project',$,$,$,$,$,$);
#2=IFCSIUNIT(*,.LENGTHUNIT.,.MILLI.,.METRE.);
#3=IFCSIUNIT(*,.AREAUNIT.,$,.SQUARE_METRE.);
#4=IFCSIUNIT(*,.VOLUMEUNIT.,$,.CUBIC_METRE.);
#5=IFCUNITASSIGNMENT((#2,#3,#4));
#6=IFCCARTESIANPOINT((0.,0.,0.));
#7=IFCDIRECTION((0.,0.,1.));
#8=IFCDIRECTION((1.,0.,0.));
#9=IFCAXIS2PLACEMENT3D(#6,#7,#8);
#10=IFCLOCALPLACEMENT($,#9);
#11=IFCBUILDING('2aG1gZj7PD2PztLOx2$yoY',$,'Building',$,$,#10,$,$,$,.ELEMENT.,$,$,$);
#12=IFCRELAGGREGATES('1Dd9Lcp$D9OQWkO1$Ykphl',$,'Building Container',$,#1,(#11));
#13=IFCBUILDINGSTOREY('1zS3wBH99AOguUiArbHbX8',$,'Level 1','First Level',$,#10,$,$,$,.ELEMENT.,0.);
#14=IFCRELAGGREGATES('2MH0qYHvH8xgpuPHJrPH8t',$,'Storey Container',$,#11,(#13));
#15=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A elementedwall wall',$,#10,$,$,.ELEMENTEDWALL.);
#16=IFCMATERIAL('Timber',$,$);
#17=IFCMATERIALLAYER(#16,125,.U.,$,$,$,$);
#18=IFCMATERIALLAYERSET((#17),'Timber - 125mm',$);
#19=IFCMATERIALLAYERSETUSAGE(#18,.AXIS2.,.NEGATIVE.,62.5.,$);
#20=IFCRELASSOCIATESMATERIAL('3qGDYRqI98RApqr6xHdZKe',$,'Material to Wall',$,(#15),#19);
#21=IFCRECTANGLEPROFILEDEF(.AREA.,'Wall Profile',$,12000.,125.);
#22=IFCCARTESIANPOINT((0.,0.,0.));
#23=IFCDIRECTION((0.,0.,1.));
#24=IFCDIRECTION((1.,0.,0.));
#25=IFCAXIS2PLACEMENT3D(#22,#23,#24);
#26=IFCDIRECTION((0.,0.,1.));
#27=IFCEXTRUDEDAREASOLID(#21,#25,#26,2700.);
#28=IFCSHAPEREPRESENTATION(#1,'Body','SweptSolid',(#27));
#29=IFCPRODUCTDEFINITIONSHAPE($,$,(#28));
#30=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A elementedwall wall',$,#10,#29,$,.ELEMENTEDWALL.);
#31=IFCRELCONTAINEDINSPATIALSTRUCTURE('2ZAHNO3Qn8BxK$rKH6cl4D',$,'Wall Containment',$,(#30),#13);
#32=IFCPROPERTYSINGLEVALUE('LoadBearing',$,IFCBOOLEAN(.F.),$);
#33=IFCPROPERTYSINGLEVALUE('IsExternal',$,IFCBOOLEAN(.T.),$);
#34=IFCPROPERTYSINGLEVALUE('FireRating',$,IFCLABEL('F180'),$);
#35=IFCPROPERTYSET('2grnRSqIL7hh$liSj0W0Ht',$,'Pset_WallCommon',$,(#32,#33,#34));
#36=IFCRELDEFINESBYPROPERTIES('35A0dwNnD8fALlO7A2JM7c',$,'Wall Common Properties',$,(#30),#35); |
You are an IFC (Industry Foundation Classes) and BIM (Building Information Modeling) expert. Provide accurate, detailed, and practical answers to questions about IFC schemas, implementation, and usage in the AEC industry. | Create a complete IFC definition for a solidwall wall that is 380mm thick, 3600mm high, 3600mm long, made of Masonry, load-bearing, external, with fire rating F120. | #1=IFCPROJECT('3MDa0qu6X5eBFeTDmhEULg',$,'Sample Project',$,$,$,$,$,$);
#2=IFCSIUNIT(*,.LENGTHUNIT.,.MILLI.,.METRE.);
#3=IFCSIUNIT(*,.AREAUNIT.,$,.SQUARE_METRE.);
#4=IFCSIUNIT(*,.VOLUMEUNIT.,$,.CUBIC_METRE.);
#5=IFCUNITASSIGNMENT((#2,#3,#4));
#6=IFCCARTESIANPOINT((0.,0.,0.));
#7=IFCDIRECTION((0.,0.,1.));
#8=IFCDIRECTION((1.,0.,0.));
#9=IFCAXIS2PLACEMENT3D(#6,#7,#8);
#10=IFCLOCALPLACEMENT($,#9);
#11=IFCBUILDING('2aG1gZj7PD2PztLOx2$yoY',$,'Building',$,$,#10,$,$,$,.ELEMENT.,$,$,$);
#12=IFCRELAGGREGATES('1Dd9Lcp$D9OQWkO1$Ykphl',$,'Building Container',$,#1,(#11));
#13=IFCBUILDINGSTOREY('1zS3wBH99AOguUiArbHbX8',$,'Level 1','First Level',$,#10,$,$,$,.ELEMENT.,0.);
#14=IFCRELAGGREGATES('2MH0qYHvH8xgpuPHJrPH8t',$,'Storey Container',$,#11,(#13));
#15=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A solidwall wall',$,#10,$,$,.SOLIDWALL.);
#16=IFCMATERIAL('Masonry',$,$);
#17=IFCMATERIALLAYER(#16,380,.U.,$,$,$,$);
#18=IFCMATERIALLAYERSET((#17),'Masonry - 380mm',$);
#19=IFCMATERIALLAYERSETUSAGE(#18,.AXIS2.,.NEGATIVE.,190.0.,$);
#20=IFCRELASSOCIATESMATERIAL('3qGDYRqI98RApqr6xHdZKe',$,'Material to Wall',$,(#15),#19);
#21=IFCRECTANGLEPROFILEDEF(.AREA.,'Wall Profile',$,3600.,380.);
#22=IFCCARTESIANPOINT((0.,0.,0.));
#23=IFCDIRECTION((0.,0.,1.));
#24=IFCDIRECTION((1.,0.,0.));
#25=IFCAXIS2PLACEMENT3D(#22,#23,#24);
#26=IFCDIRECTION((0.,0.,1.));
#27=IFCEXTRUDEDAREASOLID(#21,#25,#26,3600.);
#28=IFCSHAPEREPRESENTATION(#1,'Body','SweptSolid',(#27));
#29=IFCPRODUCTDEFINITIONSHAPE($,$,(#28));
#30=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A solidwall wall',$,#10,#29,$,.SOLIDWALL.);
#31=IFCRELCONTAINEDINSPATIALSTRUCTURE('2ZAHNO3Qn8BxK$rKH6cl4D',$,'Wall Containment',$,(#30),#13);
#32=IFCPROPERTYSINGLEVALUE('LoadBearing',$,IFCBOOLEAN(.T.),$);
#33=IFCPROPERTYSINGLEVALUE('IsExternal',$,IFCBOOLEAN(.T.),$);
#34=IFCPROPERTYSINGLEVALUE('FireRating',$,IFCLABEL('F120'),$);
#35=IFCPROPERTYSET('2grnRSqIL7hh$liSj0W0Ht',$,'Pset_WallCommon',$,(#32,#33,#34));
#36=IFCRELDEFINESBYPROPERTIES('35A0dwNnD8fALlO7A2JM7c',$,'Wall Common Properties',$,(#30),#35); |
You are an IFC (Industry Foundation Classes) and BIM (Building Information Modeling) expert. Provide accurate, detailed, and practical answers to questions about IFC schemas, implementation, and usage in the AEC industry. | Create a complete IFC definition for a standard wall that is 150mm thick, 4500mm high, 12000mm long, made of Concrete, load-bearing, external, with fire rating F30. | #1=IFCPROJECT('3MDa0qu6X5eBFeTDmhEULg',$,'Sample Project',$,$,$,$,$,$);
#2=IFCSIUNIT(*,.LENGTHUNIT.,.MILLI.,.METRE.);
#3=IFCSIUNIT(*,.AREAUNIT.,$,.SQUARE_METRE.);
#4=IFCSIUNIT(*,.VOLUMEUNIT.,$,.CUBIC_METRE.);
#5=IFCUNITASSIGNMENT((#2,#3,#4));
#6=IFCCARTESIANPOINT((0.,0.,0.));
#7=IFCDIRECTION((0.,0.,1.));
#8=IFCDIRECTION((1.,0.,0.));
#9=IFCAXIS2PLACEMENT3D(#6,#7,#8);
#10=IFCLOCALPLACEMENT($,#9);
#11=IFCBUILDING('2aG1gZj7PD2PztLOx2$yoY',$,'Building',$,$,#10,$,$,$,.ELEMENT.,$,$,$);
#12=IFCRELAGGREGATES('1Dd9Lcp$D9OQWkO1$Ykphl',$,'Building Container',$,#1,(#11));
#13=IFCBUILDINGSTOREY('1zS3wBH99AOguUiArbHbX8',$,'Level 1','First Level',$,#10,$,$,$,.ELEMENT.,0.);
#14=IFCRELAGGREGATES('2MH0qYHvH8xgpuPHJrPH8t',$,'Storey Container',$,#11,(#13));
#15=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A standard wall',$,#10,$,$,.STANDARD.);
#16=IFCMATERIAL('Concrete',$,$);
#17=IFCMATERIALLAYER(#16,150,.U.,$,$,$,$);
#18=IFCMATERIALLAYERSET((#17),'Concrete - 150mm',$);
#19=IFCMATERIALLAYERSETUSAGE(#18,.AXIS2.,.NEGATIVE.,75.0.,$);
#20=IFCRELASSOCIATESMATERIAL('3qGDYRqI98RApqr6xHdZKe',$,'Material to Wall',$,(#15),#19);
#21=IFCRECTANGLEPROFILEDEF(.AREA.,'Wall Profile',$,12000.,150.);
#22=IFCCARTESIANPOINT((0.,0.,0.));
#23=IFCDIRECTION((0.,0.,1.));
#24=IFCDIRECTION((1.,0.,0.));
#25=IFCAXIS2PLACEMENT3D(#22,#23,#24);
#26=IFCDIRECTION((0.,0.,1.));
#27=IFCEXTRUDEDAREASOLID(#21,#25,#26,4500.);
#28=IFCSHAPEREPRESENTATION(#1,'Body','SweptSolid',(#27));
#29=IFCPRODUCTDEFINITIONSHAPE($,$,(#28));
#30=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A standard wall',$,#10,#29,$,.STANDARD.);
#31=IFCRELCONTAINEDINSPATIALSTRUCTURE('2ZAHNO3Qn8BxK$rKH6cl4D',$,'Wall Containment',$,(#30),#13);
#32=IFCPROPERTYSINGLEVALUE('LoadBearing',$,IFCBOOLEAN(.T.),$);
#33=IFCPROPERTYSINGLEVALUE('IsExternal',$,IFCBOOLEAN(.T.),$);
#34=IFCPROPERTYSINGLEVALUE('FireRating',$,IFCLABEL('F30'),$);
#35=IFCPROPERTYSET('2grnRSqIL7hh$liSj0W0Ht',$,'Pset_WallCommon',$,(#32,#33,#34));
#36=IFCRELDEFINESBYPROPERTIES('35A0dwNnD8fALlO7A2JM7c',$,'Wall Common Properties',$,(#30),#35); |
You are an IFC (Industry Foundation Classes) and BIM (Building Information Modeling) expert. Provide accurate, detailed, and practical answers to questions about IFC schemas, implementation, and usage in the AEC industry. | Create a complete IFC definition for a retainingwall wall that is 100mm thick, 4500mm high, 9000mm long, made of Timber, load-bearing, external, with fire rating F180. | #1=IFCPROJECT('3MDa0qu6X5eBFeTDmhEULg',$,'Sample Project',$,$,$,$,$,$);
#2=IFCSIUNIT(*,.LENGTHUNIT.,.MILLI.,.METRE.);
#3=IFCSIUNIT(*,.AREAUNIT.,$,.SQUARE_METRE.);
#4=IFCSIUNIT(*,.VOLUMEUNIT.,$,.CUBIC_METRE.);
#5=IFCUNITASSIGNMENT((#2,#3,#4));
#6=IFCCARTESIANPOINT((0.,0.,0.));
#7=IFCDIRECTION((0.,0.,1.));
#8=IFCDIRECTION((1.,0.,0.));
#9=IFCAXIS2PLACEMENT3D(#6,#7,#8);
#10=IFCLOCALPLACEMENT($,#9);
#11=IFCBUILDING('2aG1gZj7PD2PztLOx2$yoY',$,'Building',$,$,#10,$,$,$,.ELEMENT.,$,$,$);
#12=IFCRELAGGREGATES('1Dd9Lcp$D9OQWkO1$Ykphl',$,'Building Container',$,#1,(#11));
#13=IFCBUILDINGSTOREY('1zS3wBH99AOguUiArbHbX8',$,'Level 1','First Level',$,#10,$,$,$,.ELEMENT.,0.);
#14=IFCRELAGGREGATES('2MH0qYHvH8xgpuPHJrPH8t',$,'Storey Container',$,#11,(#13));
#15=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A retainingwall wall',$,#10,$,$,.RETAININGWALL.);
#16=IFCMATERIAL('Timber',$,$);
#17=IFCMATERIALLAYER(#16,100,.U.,$,$,$,$);
#18=IFCMATERIALLAYERSET((#17),'Timber - 100mm',$);
#19=IFCMATERIALLAYERSETUSAGE(#18,.AXIS2.,.NEGATIVE.,50.0.,$);
#20=IFCRELASSOCIATESMATERIAL('3qGDYRqI98RApqr6xHdZKe',$,'Material to Wall',$,(#15),#19);
#21=IFCRECTANGLEPROFILEDEF(.AREA.,'Wall Profile',$,9000.,100.);
#22=IFCCARTESIANPOINT((0.,0.,0.));
#23=IFCDIRECTION((0.,0.,1.));
#24=IFCDIRECTION((1.,0.,0.));
#25=IFCAXIS2PLACEMENT3D(#22,#23,#24);
#26=IFCDIRECTION((0.,0.,1.));
#27=IFCEXTRUDEDAREASOLID(#21,#25,#26,4500.);
#28=IFCSHAPEREPRESENTATION(#1,'Body','SweptSolid',(#27));
#29=IFCPRODUCTDEFINITIONSHAPE($,$,(#28));
#30=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A retainingwall wall',$,#10,#29,$,.RETAININGWALL.);
#31=IFCRELCONTAINEDINSPATIALSTRUCTURE('2ZAHNO3Qn8BxK$rKH6cl4D',$,'Wall Containment',$,(#30),#13);
#32=IFCPROPERTYSINGLEVALUE('LoadBearing',$,IFCBOOLEAN(.T.),$);
#33=IFCPROPERTYSINGLEVALUE('IsExternal',$,IFCBOOLEAN(.T.),$);
#34=IFCPROPERTYSINGLEVALUE('FireRating',$,IFCLABEL('F180'),$);
#35=IFCPROPERTYSET('2grnRSqIL7hh$liSj0W0Ht',$,'Pset_WallCommon',$,(#32,#33,#34));
#36=IFCRELDEFINESBYPROPERTIES('35A0dwNnD8fALlO7A2JM7c',$,'Wall Common Properties',$,(#30),#35); |
You are an IFC (Industry Foundation Classes) and BIM (Building Information Modeling) expert. Provide accurate, detailed, and practical answers to questions about IFC schemas, implementation, and usage in the AEC industry. | Create a complete IFC definition for a retainingwall wall that is 125mm thick, 3000mm high, 6000mm long, made of Timber, load-bearing, external, with fire rating F30. | #1=IFCPROJECT('3MDa0qu6X5eBFeTDmhEULg',$,'Sample Project',$,$,$,$,$,$);
#2=IFCSIUNIT(*,.LENGTHUNIT.,.MILLI.,.METRE.);
#3=IFCSIUNIT(*,.AREAUNIT.,$,.SQUARE_METRE.);
#4=IFCSIUNIT(*,.VOLUMEUNIT.,$,.CUBIC_METRE.);
#5=IFCUNITASSIGNMENT((#2,#3,#4));
#6=IFCCARTESIANPOINT((0.,0.,0.));
#7=IFCDIRECTION((0.,0.,1.));
#8=IFCDIRECTION((1.,0.,0.));
#9=IFCAXIS2PLACEMENT3D(#6,#7,#8);
#10=IFCLOCALPLACEMENT($,#9);
#11=IFCBUILDING('2aG1gZj7PD2PztLOx2$yoY',$,'Building',$,$,#10,$,$,$,.ELEMENT.,$,$,$);
#12=IFCRELAGGREGATES('1Dd9Lcp$D9OQWkO1$Ykphl',$,'Building Container',$,#1,(#11));
#13=IFCBUILDINGSTOREY('1zS3wBH99AOguUiArbHbX8',$,'Level 1','First Level',$,#10,$,$,$,.ELEMENT.,0.);
#14=IFCRELAGGREGATES('2MH0qYHvH8xgpuPHJrPH8t',$,'Storey Container',$,#11,(#13));
#15=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A retainingwall wall',$,#10,$,$,.RETAININGWALL.);
#16=IFCMATERIAL('Timber',$,$);
#17=IFCMATERIALLAYER(#16,125,.U.,$,$,$,$);
#18=IFCMATERIALLAYERSET((#17),'Timber - 125mm',$);
#19=IFCMATERIALLAYERSETUSAGE(#18,.AXIS2.,.NEGATIVE.,62.5.,$);
#20=IFCRELASSOCIATESMATERIAL('3qGDYRqI98RApqr6xHdZKe',$,'Material to Wall',$,(#15),#19);
#21=IFCRECTANGLEPROFILEDEF(.AREA.,'Wall Profile',$,6000.,125.);
#22=IFCCARTESIANPOINT((0.,0.,0.));
#23=IFCDIRECTION((0.,0.,1.));
#24=IFCDIRECTION((1.,0.,0.));
#25=IFCAXIS2PLACEMENT3D(#22,#23,#24);
#26=IFCDIRECTION((0.,0.,1.));
#27=IFCEXTRUDEDAREASOLID(#21,#25,#26,3000.);
#28=IFCSHAPEREPRESENTATION(#1,'Body','SweptSolid',(#27));
#29=IFCPRODUCTDEFINITIONSHAPE($,$,(#28));
#30=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A retainingwall wall',$,#10,#29,$,.RETAININGWALL.);
#31=IFCRELCONTAINEDINSPATIALSTRUCTURE('2ZAHNO3Qn8BxK$rKH6cl4D',$,'Wall Containment',$,(#30),#13);
#32=IFCPROPERTYSINGLEVALUE('LoadBearing',$,IFCBOOLEAN(.T.),$);
#33=IFCPROPERTYSINGLEVALUE('IsExternal',$,IFCBOOLEAN(.T.),$);
#34=IFCPROPERTYSINGLEVALUE('FireRating',$,IFCLABEL('F30'),$);
#35=IFCPROPERTYSET('2grnRSqIL7hh$liSj0W0Ht',$,'Pset_WallCommon',$,(#32,#33,#34));
#36=IFCRELDEFINESBYPROPERTIES('35A0dwNnD8fALlO7A2JM7c',$,'Wall Common Properties',$,(#30),#35); |
You are an IFC (Industry Foundation Classes) and BIM (Building Information Modeling) expert. Provide accurate, detailed, and practical answers to questions about IFC schemas, implementation, and usage in the AEC industry. | Create a complete IFC definition for a shear wall that is 100mm thick, 3300mm high, 12000mm long, made of Masonry, non-load-bearing, internal, with fire rating F60. | #1=IFCPROJECT('3MDa0qu6X5eBFeTDmhEULg',$,'Sample Project',$,$,$,$,$,$);
#2=IFCSIUNIT(*,.LENGTHUNIT.,.MILLI.,.METRE.);
#3=IFCSIUNIT(*,.AREAUNIT.,$,.SQUARE_METRE.);
#4=IFCSIUNIT(*,.VOLUMEUNIT.,$,.CUBIC_METRE.);
#5=IFCUNITASSIGNMENT((#2,#3,#4));
#6=IFCCARTESIANPOINT((0.,0.,0.));
#7=IFCDIRECTION((0.,0.,1.));
#8=IFCDIRECTION((1.,0.,0.));
#9=IFCAXIS2PLACEMENT3D(#6,#7,#8);
#10=IFCLOCALPLACEMENT($,#9);
#11=IFCBUILDING('2aG1gZj7PD2PztLOx2$yoY',$,'Building',$,$,#10,$,$,$,.ELEMENT.,$,$,$);
#12=IFCRELAGGREGATES('1Dd9Lcp$D9OQWkO1$Ykphl',$,'Building Container',$,#1,(#11));
#13=IFCBUILDINGSTOREY('1zS3wBH99AOguUiArbHbX8',$,'Level 1','First Level',$,#10,$,$,$,.ELEMENT.,0.);
#14=IFCRELAGGREGATES('2MH0qYHvH8xgpuPHJrPH8t',$,'Storey Container',$,#11,(#13));
#15=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A shear wall',$,#10,$,$,.SHEAR.);
#16=IFCMATERIAL('Masonry',$,$);
#17=IFCMATERIALLAYER(#16,100,.U.,$,$,$,$);
#18=IFCMATERIALLAYERSET((#17),'Masonry - 100mm',$);
#19=IFCMATERIALLAYERSETUSAGE(#18,.AXIS2.,.NEGATIVE.,50.0.,$);
#20=IFCRELASSOCIATESMATERIAL('3qGDYRqI98RApqr6xHdZKe',$,'Material to Wall',$,(#15),#19);
#21=IFCRECTANGLEPROFILEDEF(.AREA.,'Wall Profile',$,12000.,100.);
#22=IFCCARTESIANPOINT((0.,0.,0.));
#23=IFCDIRECTION((0.,0.,1.));
#24=IFCDIRECTION((1.,0.,0.));
#25=IFCAXIS2PLACEMENT3D(#22,#23,#24);
#26=IFCDIRECTION((0.,0.,1.));
#27=IFCEXTRUDEDAREASOLID(#21,#25,#26,3300.);
#28=IFCSHAPEREPRESENTATION(#1,'Body','SweptSolid',(#27));
#29=IFCPRODUCTDEFINITIONSHAPE($,$,(#28));
#30=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A shear wall',$,#10,#29,$,.SHEAR.);
#31=IFCRELCONTAINEDINSPATIALSTRUCTURE('2ZAHNO3Qn8BxK$rKH6cl4D',$,'Wall Containment',$,(#30),#13);
#32=IFCPROPERTYSINGLEVALUE('LoadBearing',$,IFCBOOLEAN(.F.),$);
#33=IFCPROPERTYSINGLEVALUE('IsExternal',$,IFCBOOLEAN(.F.),$);
#34=IFCPROPERTYSINGLEVALUE('FireRating',$,IFCLABEL('F60'),$);
#35=IFCPROPERTYSET('2grnRSqIL7hh$liSj0W0Ht',$,'Pset_WallCommon',$,(#32,#33,#34));
#36=IFCRELDEFINESBYPROPERTIES('35A0dwNnD8fALlO7A2JM7c',$,'Wall Common Properties',$,(#30),#35); |
You are an IFC (Industry Foundation Classes) and BIM (Building Information Modeling) expert. Provide accurate, detailed, and practical answers to questions about IFC schemas, implementation, and usage in the AEC industry. | Create a complete IFC definition for a polygonal wall that is 200mm thick, 3000mm high, 9000mm long, made of Masonry, load-bearing, external, with fire rating F90. | #1=IFCPROJECT('3MDa0qu6X5eBFeTDmhEULg',$,'Sample Project',$,$,$,$,$,$);
#2=IFCSIUNIT(*,.LENGTHUNIT.,.MILLI.,.METRE.);
#3=IFCSIUNIT(*,.AREAUNIT.,$,.SQUARE_METRE.);
#4=IFCSIUNIT(*,.VOLUMEUNIT.,$,.CUBIC_METRE.);
#5=IFCUNITASSIGNMENT((#2,#3,#4));
#6=IFCCARTESIANPOINT((0.,0.,0.));
#7=IFCDIRECTION((0.,0.,1.));
#8=IFCDIRECTION((1.,0.,0.));
#9=IFCAXIS2PLACEMENT3D(#6,#7,#8);
#10=IFCLOCALPLACEMENT($,#9);
#11=IFCBUILDING('2aG1gZj7PD2PztLOx2$yoY',$,'Building',$,$,#10,$,$,$,.ELEMENT.,$,$,$);
#12=IFCRELAGGREGATES('1Dd9Lcp$D9OQWkO1$Ykphl',$,'Building Container',$,#1,(#11));
#13=IFCBUILDINGSTOREY('1zS3wBH99AOguUiArbHbX8',$,'Level 1','First Level',$,#10,$,$,$,.ELEMENT.,0.);
#14=IFCRELAGGREGATES('2MH0qYHvH8xgpuPHJrPH8t',$,'Storey Container',$,#11,(#13));
#15=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A polygonal wall',$,#10,$,$,.POLYGONAL.);
#16=IFCMATERIAL('Masonry',$,$);
#17=IFCMATERIALLAYER(#16,200,.U.,$,$,$,$);
#18=IFCMATERIALLAYERSET((#17),'Masonry - 200mm',$);
#19=IFCMATERIALLAYERSETUSAGE(#18,.AXIS2.,.NEGATIVE.,100.0.,$);
#20=IFCRELASSOCIATESMATERIAL('3qGDYRqI98RApqr6xHdZKe',$,'Material to Wall',$,(#15),#19);
#21=IFCRECTANGLEPROFILEDEF(.AREA.,'Wall Profile',$,9000.,200.);
#22=IFCCARTESIANPOINT((0.,0.,0.));
#23=IFCDIRECTION((0.,0.,1.));
#24=IFCDIRECTION((1.,0.,0.));
#25=IFCAXIS2PLACEMENT3D(#22,#23,#24);
#26=IFCDIRECTION((0.,0.,1.));
#27=IFCEXTRUDEDAREASOLID(#21,#25,#26,3000.);
#28=IFCSHAPEREPRESENTATION(#1,'Body','SweptSolid',(#27));
#29=IFCPRODUCTDEFINITIONSHAPE($,$,(#28));
#30=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A polygonal wall',$,#10,#29,$,.POLYGONAL.);
#31=IFCRELCONTAINEDINSPATIALSTRUCTURE('2ZAHNO3Qn8BxK$rKH6cl4D',$,'Wall Containment',$,(#30),#13);
#32=IFCPROPERTYSINGLEVALUE('LoadBearing',$,IFCBOOLEAN(.T.),$);
#33=IFCPROPERTYSINGLEVALUE('IsExternal',$,IFCBOOLEAN(.T.),$);
#34=IFCPROPERTYSINGLEVALUE('FireRating',$,IFCLABEL('F90'),$);
#35=IFCPROPERTYSET('2grnRSqIL7hh$liSj0W0Ht',$,'Pset_WallCommon',$,(#32,#33,#34));
#36=IFCRELDEFINESBYPROPERTIES('35A0dwNnD8fALlO7A2JM7c',$,'Wall Common Properties',$,(#30),#35); |
You are an IFC (Industry Foundation Classes) and BIM (Building Information Modeling) expert. Provide accurate, detailed, and practical answers to questions about IFC schemas, implementation, and usage in the AEC industry. | Create a complete IFC definition for a shear wall that is 250mm thick, 2700mm high, 12000mm long, made of Masonry, non-load-bearing, external, with fire rating F90. | #1=IFCPROJECT('3MDa0qu6X5eBFeTDmhEULg',$,'Sample Project',$,$,$,$,$,$);
#2=IFCSIUNIT(*,.LENGTHUNIT.,.MILLI.,.METRE.);
#3=IFCSIUNIT(*,.AREAUNIT.,$,.SQUARE_METRE.);
#4=IFCSIUNIT(*,.VOLUMEUNIT.,$,.CUBIC_METRE.);
#5=IFCUNITASSIGNMENT((#2,#3,#4));
#6=IFCCARTESIANPOINT((0.,0.,0.));
#7=IFCDIRECTION((0.,0.,1.));
#8=IFCDIRECTION((1.,0.,0.));
#9=IFCAXIS2PLACEMENT3D(#6,#7,#8);
#10=IFCLOCALPLACEMENT($,#9);
#11=IFCBUILDING('2aG1gZj7PD2PztLOx2$yoY',$,'Building',$,$,#10,$,$,$,.ELEMENT.,$,$,$);
#12=IFCRELAGGREGATES('1Dd9Lcp$D9OQWkO1$Ykphl',$,'Building Container',$,#1,(#11));
#13=IFCBUILDINGSTOREY('1zS3wBH99AOguUiArbHbX8',$,'Level 1','First Level',$,#10,$,$,$,.ELEMENT.,0.);
#14=IFCRELAGGREGATES('2MH0qYHvH8xgpuPHJrPH8t',$,'Storey Container',$,#11,(#13));
#15=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A shear wall',$,#10,$,$,.SHEAR.);
#16=IFCMATERIAL('Masonry',$,$);
#17=IFCMATERIALLAYER(#16,250,.U.,$,$,$,$);
#18=IFCMATERIALLAYERSET((#17),'Masonry - 250mm',$);
#19=IFCMATERIALLAYERSETUSAGE(#18,.AXIS2.,.NEGATIVE.,125.0.,$);
#20=IFCRELASSOCIATESMATERIAL('3qGDYRqI98RApqr6xHdZKe',$,'Material to Wall',$,(#15),#19);
#21=IFCRECTANGLEPROFILEDEF(.AREA.,'Wall Profile',$,12000.,250.);
#22=IFCCARTESIANPOINT((0.,0.,0.));
#23=IFCDIRECTION((0.,0.,1.));
#24=IFCDIRECTION((1.,0.,0.));
#25=IFCAXIS2PLACEMENT3D(#22,#23,#24);
#26=IFCDIRECTION((0.,0.,1.));
#27=IFCEXTRUDEDAREASOLID(#21,#25,#26,2700.);
#28=IFCSHAPEREPRESENTATION(#1,'Body','SweptSolid',(#27));
#29=IFCPRODUCTDEFINITIONSHAPE($,$,(#28));
#30=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A shear wall',$,#10,#29,$,.SHEAR.);
#31=IFCRELCONTAINEDINSPATIALSTRUCTURE('2ZAHNO3Qn8BxK$rKH6cl4D',$,'Wall Containment',$,(#30),#13);
#32=IFCPROPERTYSINGLEVALUE('LoadBearing',$,IFCBOOLEAN(.F.),$);
#33=IFCPROPERTYSINGLEVALUE('IsExternal',$,IFCBOOLEAN(.T.),$);
#34=IFCPROPERTYSINGLEVALUE('FireRating',$,IFCLABEL('F90'),$);
#35=IFCPROPERTYSET('2grnRSqIL7hh$liSj0W0Ht',$,'Pset_WallCommon',$,(#32,#33,#34));
#36=IFCRELDEFINESBYPROPERTIES('35A0dwNnD8fALlO7A2JM7c',$,'Wall Common Properties',$,(#30),#35); |
You are an IFC (Industry Foundation Classes) and BIM (Building Information Modeling) expert. Provide accurate, detailed, and practical answers to questions about IFC schemas, implementation, and usage in the AEC industry. | Create a complete IFC definition for a partitioning wall that is 150mm thick, 2700mm high, 7500mm long, made of Timber, load-bearing, external, with fire rating F90. | #1=IFCPROJECT('3MDa0qu6X5eBFeTDmhEULg',$,'Sample Project',$,$,$,$,$,$);
#2=IFCSIUNIT(*,.LENGTHUNIT.,.MILLI.,.METRE.);
#3=IFCSIUNIT(*,.AREAUNIT.,$,.SQUARE_METRE.);
#4=IFCSIUNIT(*,.VOLUMEUNIT.,$,.CUBIC_METRE.);
#5=IFCUNITASSIGNMENT((#2,#3,#4));
#6=IFCCARTESIANPOINT((0.,0.,0.));
#7=IFCDIRECTION((0.,0.,1.));
#8=IFCDIRECTION((1.,0.,0.));
#9=IFCAXIS2PLACEMENT3D(#6,#7,#8);
#10=IFCLOCALPLACEMENT($,#9);
#11=IFCBUILDING('2aG1gZj7PD2PztLOx2$yoY',$,'Building',$,$,#10,$,$,$,.ELEMENT.,$,$,$);
#12=IFCRELAGGREGATES('1Dd9Lcp$D9OQWkO1$Ykphl',$,'Building Container',$,#1,(#11));
#13=IFCBUILDINGSTOREY('1zS3wBH99AOguUiArbHbX8',$,'Level 1','First Level',$,#10,$,$,$,.ELEMENT.,0.);
#14=IFCRELAGGREGATES('2MH0qYHvH8xgpuPHJrPH8t',$,'Storey Container',$,#11,(#13));
#15=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A partitioning wall',$,#10,$,$,.PARTITIONING.);
#16=IFCMATERIAL('Timber',$,$);
#17=IFCMATERIALLAYER(#16,150,.U.,$,$,$,$);
#18=IFCMATERIALLAYERSET((#17),'Timber - 150mm',$);
#19=IFCMATERIALLAYERSETUSAGE(#18,.AXIS2.,.NEGATIVE.,75.0.,$);
#20=IFCRELASSOCIATESMATERIAL('3qGDYRqI98RApqr6xHdZKe',$,'Material to Wall',$,(#15),#19);
#21=IFCRECTANGLEPROFILEDEF(.AREA.,'Wall Profile',$,7500.,150.);
#22=IFCCARTESIANPOINT((0.,0.,0.));
#23=IFCDIRECTION((0.,0.,1.));
#24=IFCDIRECTION((1.,0.,0.));
#25=IFCAXIS2PLACEMENT3D(#22,#23,#24);
#26=IFCDIRECTION((0.,0.,1.));
#27=IFCEXTRUDEDAREASOLID(#21,#25,#26,2700.);
#28=IFCSHAPEREPRESENTATION(#1,'Body','SweptSolid',(#27));
#29=IFCPRODUCTDEFINITIONSHAPE($,$,(#28));
#30=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A partitioning wall',$,#10,#29,$,.PARTITIONING.);
#31=IFCRELCONTAINEDINSPATIALSTRUCTURE('2ZAHNO3Qn8BxK$rKH6cl4D',$,'Wall Containment',$,(#30),#13);
#32=IFCPROPERTYSINGLEVALUE('LoadBearing',$,IFCBOOLEAN(.T.),$);
#33=IFCPROPERTYSINGLEVALUE('IsExternal',$,IFCBOOLEAN(.T.),$);
#34=IFCPROPERTYSINGLEVALUE('FireRating',$,IFCLABEL('F90'),$);
#35=IFCPROPERTYSET('2grnRSqIL7hh$liSj0W0Ht',$,'Pset_WallCommon',$,(#32,#33,#34));
#36=IFCRELDEFINESBYPROPERTIES('35A0dwNnD8fALlO7A2JM7c',$,'Wall Common Properties',$,(#30),#35); |
You are an IFC (Industry Foundation Classes) and BIM (Building Information Modeling) expert. Provide accurate, detailed, and practical answers to questions about IFC schemas, implementation, and usage in the AEC industry. | Create a complete IFC definition for a retainingwall wall that is 250mm thick, 3300mm high, 5000mm long, made of Concrete, load-bearing, external, with fire rating F180. | #1=IFCPROJECT('3MDa0qu6X5eBFeTDmhEULg',$,'Sample Project',$,$,$,$,$,$);
#2=IFCSIUNIT(*,.LENGTHUNIT.,.MILLI.,.METRE.);
#3=IFCSIUNIT(*,.AREAUNIT.,$,.SQUARE_METRE.);
#4=IFCSIUNIT(*,.VOLUMEUNIT.,$,.CUBIC_METRE.);
#5=IFCUNITASSIGNMENT((#2,#3,#4));
#6=IFCCARTESIANPOINT((0.,0.,0.));
#7=IFCDIRECTION((0.,0.,1.));
#8=IFCDIRECTION((1.,0.,0.));
#9=IFCAXIS2PLACEMENT3D(#6,#7,#8);
#10=IFCLOCALPLACEMENT($,#9);
#11=IFCBUILDING('2aG1gZj7PD2PztLOx2$yoY',$,'Building',$,$,#10,$,$,$,.ELEMENT.,$,$,$);
#12=IFCRELAGGREGATES('1Dd9Lcp$D9OQWkO1$Ykphl',$,'Building Container',$,#1,(#11));
#13=IFCBUILDINGSTOREY('1zS3wBH99AOguUiArbHbX8',$,'Level 1','First Level',$,#10,$,$,$,.ELEMENT.,0.);
#14=IFCRELAGGREGATES('2MH0qYHvH8xgpuPHJrPH8t',$,'Storey Container',$,#11,(#13));
#15=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A retainingwall wall',$,#10,$,$,.RETAININGWALL.);
#16=IFCMATERIAL('Concrete',$,$);
#17=IFCMATERIALLAYER(#16,250,.U.,$,$,$,$);
#18=IFCMATERIALLAYERSET((#17),'Concrete - 250mm',$);
#19=IFCMATERIALLAYERSETUSAGE(#18,.AXIS2.,.NEGATIVE.,125.0.,$);
#20=IFCRELASSOCIATESMATERIAL('3qGDYRqI98RApqr6xHdZKe',$,'Material to Wall',$,(#15),#19);
#21=IFCRECTANGLEPROFILEDEF(.AREA.,'Wall Profile',$,5000.,250.);
#22=IFCCARTESIANPOINT((0.,0.,0.));
#23=IFCDIRECTION((0.,0.,1.));
#24=IFCDIRECTION((1.,0.,0.));
#25=IFCAXIS2PLACEMENT3D(#22,#23,#24);
#26=IFCDIRECTION((0.,0.,1.));
#27=IFCEXTRUDEDAREASOLID(#21,#25,#26,3300.);
#28=IFCSHAPEREPRESENTATION(#1,'Body','SweptSolid',(#27));
#29=IFCPRODUCTDEFINITIONSHAPE($,$,(#28));
#30=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A retainingwall wall',$,#10,#29,$,.RETAININGWALL.);
#31=IFCRELCONTAINEDINSPATIALSTRUCTURE('2ZAHNO3Qn8BxK$rKH6cl4D',$,'Wall Containment',$,(#30),#13);
#32=IFCPROPERTYSINGLEVALUE('LoadBearing',$,IFCBOOLEAN(.T.),$);
#33=IFCPROPERTYSINGLEVALUE('IsExternal',$,IFCBOOLEAN(.T.),$);
#34=IFCPROPERTYSINGLEVALUE('FireRating',$,IFCLABEL('F180'),$);
#35=IFCPROPERTYSET('2grnRSqIL7hh$liSj0W0Ht',$,'Pset_WallCommon',$,(#32,#33,#34));
#36=IFCRELDEFINESBYPROPERTIES('35A0dwNnD8fALlO7A2JM7c',$,'Wall Common Properties',$,(#30),#35); |
You are an IFC (Industry Foundation Classes) and BIM (Building Information Modeling) expert. Provide accurate, detailed, and practical answers to questions about IFC schemas, implementation, and usage in the AEC industry. | Create a complete IFC definition for a parapet wall that is 200mm thick, 2700mm high, 3000mm long, made of Masonry, load-bearing, external, with fire rating F30. | #1=IFCPROJECT('3MDa0qu6X5eBFeTDmhEULg',$,'Sample Project',$,$,$,$,$,$);
#2=IFCSIUNIT(*,.LENGTHUNIT.,.MILLI.,.METRE.);
#3=IFCSIUNIT(*,.AREAUNIT.,$,.SQUARE_METRE.);
#4=IFCSIUNIT(*,.VOLUMEUNIT.,$,.CUBIC_METRE.);
#5=IFCUNITASSIGNMENT((#2,#3,#4));
#6=IFCCARTESIANPOINT((0.,0.,0.));
#7=IFCDIRECTION((0.,0.,1.));
#8=IFCDIRECTION((1.,0.,0.));
#9=IFCAXIS2PLACEMENT3D(#6,#7,#8);
#10=IFCLOCALPLACEMENT($,#9);
#11=IFCBUILDING('2aG1gZj7PD2PztLOx2$yoY',$,'Building',$,$,#10,$,$,$,.ELEMENT.,$,$,$);
#12=IFCRELAGGREGATES('1Dd9Lcp$D9OQWkO1$Ykphl',$,'Building Container',$,#1,(#11));
#13=IFCBUILDINGSTOREY('1zS3wBH99AOguUiArbHbX8',$,'Level 1','First Level',$,#10,$,$,$,.ELEMENT.,0.);
#14=IFCRELAGGREGATES('2MH0qYHvH8xgpuPHJrPH8t',$,'Storey Container',$,#11,(#13));
#15=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A parapet wall',$,#10,$,$,.PARAPET.);
#16=IFCMATERIAL('Masonry',$,$);
#17=IFCMATERIALLAYER(#16,200,.U.,$,$,$,$);
#18=IFCMATERIALLAYERSET((#17),'Masonry - 200mm',$);
#19=IFCMATERIALLAYERSETUSAGE(#18,.AXIS2.,.NEGATIVE.,100.0.,$);
#20=IFCRELASSOCIATESMATERIAL('3qGDYRqI98RApqr6xHdZKe',$,'Material to Wall',$,(#15),#19);
#21=IFCRECTANGLEPROFILEDEF(.AREA.,'Wall Profile',$,3000.,200.);
#22=IFCCARTESIANPOINT((0.,0.,0.));
#23=IFCDIRECTION((0.,0.,1.));
#24=IFCDIRECTION((1.,0.,0.));
#25=IFCAXIS2PLACEMENT3D(#22,#23,#24);
#26=IFCDIRECTION((0.,0.,1.));
#27=IFCEXTRUDEDAREASOLID(#21,#25,#26,2700.);
#28=IFCSHAPEREPRESENTATION(#1,'Body','SweptSolid',(#27));
#29=IFCPRODUCTDEFINITIONSHAPE($,$,(#28));
#30=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A parapet wall',$,#10,#29,$,.PARAPET.);
#31=IFCRELCONTAINEDINSPATIALSTRUCTURE('2ZAHNO3Qn8BxK$rKH6cl4D',$,'Wall Containment',$,(#30),#13);
#32=IFCPROPERTYSINGLEVALUE('LoadBearing',$,IFCBOOLEAN(.T.),$);
#33=IFCPROPERTYSINGLEVALUE('IsExternal',$,IFCBOOLEAN(.T.),$);
#34=IFCPROPERTYSINGLEVALUE('FireRating',$,IFCLABEL('F30'),$);
#35=IFCPROPERTYSET('2grnRSqIL7hh$liSj0W0Ht',$,'Pset_WallCommon',$,(#32,#33,#34));
#36=IFCRELDEFINESBYPROPERTIES('35A0dwNnD8fALlO7A2JM7c',$,'Wall Common Properties',$,(#30),#35); |
You are an IFC (Industry Foundation Classes) and BIM (Building Information Modeling) expert. Provide accurate, detailed, and practical answers to questions about IFC schemas, implementation, and usage in the AEC industry. | Create a complete IFC definition for a shear wall that is 50mm thick, 2400mm high, 5000mm long, made of Timber, non-load-bearing, external, with fire rating F90. | #1=IFCPROJECT('3MDa0qu6X5eBFeTDmhEULg',$,'Sample Project',$,$,$,$,$,$);
#2=IFCSIUNIT(*,.LENGTHUNIT.,.MILLI.,.METRE.);
#3=IFCSIUNIT(*,.AREAUNIT.,$,.SQUARE_METRE.);
#4=IFCSIUNIT(*,.VOLUMEUNIT.,$,.CUBIC_METRE.);
#5=IFCUNITASSIGNMENT((#2,#3,#4));
#6=IFCCARTESIANPOINT((0.,0.,0.));
#7=IFCDIRECTION((0.,0.,1.));
#8=IFCDIRECTION((1.,0.,0.));
#9=IFCAXIS2PLACEMENT3D(#6,#7,#8);
#10=IFCLOCALPLACEMENT($,#9);
#11=IFCBUILDING('2aG1gZj7PD2PztLOx2$yoY',$,'Building',$,$,#10,$,$,$,.ELEMENT.,$,$,$);
#12=IFCRELAGGREGATES('1Dd9Lcp$D9OQWkO1$Ykphl',$,'Building Container',$,#1,(#11));
#13=IFCBUILDINGSTOREY('1zS3wBH99AOguUiArbHbX8',$,'Level 1','First Level',$,#10,$,$,$,.ELEMENT.,0.);
#14=IFCRELAGGREGATES('2MH0qYHvH8xgpuPHJrPH8t',$,'Storey Container',$,#11,(#13));
#15=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A shear wall',$,#10,$,$,.SHEAR.);
#16=IFCMATERIAL('Timber',$,$);
#17=IFCMATERIALLAYER(#16,50,.U.,$,$,$,$);
#18=IFCMATERIALLAYERSET((#17),'Timber - 50mm',$);
#19=IFCMATERIALLAYERSETUSAGE(#18,.AXIS2.,.NEGATIVE.,25.0.,$);
#20=IFCRELASSOCIATESMATERIAL('3qGDYRqI98RApqr6xHdZKe',$,'Material to Wall',$,(#15),#19);
#21=IFCRECTANGLEPROFILEDEF(.AREA.,'Wall Profile',$,5000.,50.);
#22=IFCCARTESIANPOINT((0.,0.,0.));
#23=IFCDIRECTION((0.,0.,1.));
#24=IFCDIRECTION((1.,0.,0.));
#25=IFCAXIS2PLACEMENT3D(#22,#23,#24);
#26=IFCDIRECTION((0.,0.,1.));
#27=IFCEXTRUDEDAREASOLID(#21,#25,#26,2400.);
#28=IFCSHAPEREPRESENTATION(#1,'Body','SweptSolid',(#27));
#29=IFCPRODUCTDEFINITIONSHAPE($,$,(#28));
#30=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A shear wall',$,#10,#29,$,.SHEAR.);
#31=IFCRELCONTAINEDINSPATIALSTRUCTURE('2ZAHNO3Qn8BxK$rKH6cl4D',$,'Wall Containment',$,(#30),#13);
#32=IFCPROPERTYSINGLEVALUE('LoadBearing',$,IFCBOOLEAN(.F.),$);
#33=IFCPROPERTYSINGLEVALUE('IsExternal',$,IFCBOOLEAN(.T.),$);
#34=IFCPROPERTYSINGLEVALUE('FireRating',$,IFCLABEL('F90'),$);
#35=IFCPROPERTYSET('2grnRSqIL7hh$liSj0W0Ht',$,'Pset_WallCommon',$,(#32,#33,#34));
#36=IFCRELDEFINESBYPROPERTIES('35A0dwNnD8fALlO7A2JM7c',$,'Wall Common Properties',$,(#30),#35); |
You are an IFC (Industry Foundation Classes) and BIM (Building Information Modeling) expert. Provide accurate, detailed, and practical answers to questions about IFC schemas, implementation, and usage in the AEC industry. | Create a complete IFC definition for a elementedwall wall that is 100mm thick, 2700mm high, 3600mm long, made of Concrete, load-bearing, internal, with fire rating F30. | #1=IFCPROJECT('3MDa0qu6X5eBFeTDmhEULg',$,'Sample Project',$,$,$,$,$,$);
#2=IFCSIUNIT(*,.LENGTHUNIT.,.MILLI.,.METRE.);
#3=IFCSIUNIT(*,.AREAUNIT.,$,.SQUARE_METRE.);
#4=IFCSIUNIT(*,.VOLUMEUNIT.,$,.CUBIC_METRE.);
#5=IFCUNITASSIGNMENT((#2,#3,#4));
#6=IFCCARTESIANPOINT((0.,0.,0.));
#7=IFCDIRECTION((0.,0.,1.));
#8=IFCDIRECTION((1.,0.,0.));
#9=IFCAXIS2PLACEMENT3D(#6,#7,#8);
#10=IFCLOCALPLACEMENT($,#9);
#11=IFCBUILDING('2aG1gZj7PD2PztLOx2$yoY',$,'Building',$,$,#10,$,$,$,.ELEMENT.,$,$,$);
#12=IFCRELAGGREGATES('1Dd9Lcp$D9OQWkO1$Ykphl',$,'Building Container',$,#1,(#11));
#13=IFCBUILDINGSTOREY('1zS3wBH99AOguUiArbHbX8',$,'Level 1','First Level',$,#10,$,$,$,.ELEMENT.,0.);
#14=IFCRELAGGREGATES('2MH0qYHvH8xgpuPHJrPH8t',$,'Storey Container',$,#11,(#13));
#15=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A elementedwall wall',$,#10,$,$,.ELEMENTEDWALL.);
#16=IFCMATERIAL('Concrete',$,$);
#17=IFCMATERIALLAYER(#16,100,.U.,$,$,$,$);
#18=IFCMATERIALLAYERSET((#17),'Concrete - 100mm',$);
#19=IFCMATERIALLAYERSETUSAGE(#18,.AXIS2.,.NEGATIVE.,50.0.,$);
#20=IFCRELASSOCIATESMATERIAL('3qGDYRqI98RApqr6xHdZKe',$,'Material to Wall',$,(#15),#19);
#21=IFCRECTANGLEPROFILEDEF(.AREA.,'Wall Profile',$,3600.,100.);
#22=IFCCARTESIANPOINT((0.,0.,0.));
#23=IFCDIRECTION((0.,0.,1.));
#24=IFCDIRECTION((1.,0.,0.));
#25=IFCAXIS2PLACEMENT3D(#22,#23,#24);
#26=IFCDIRECTION((0.,0.,1.));
#27=IFCEXTRUDEDAREASOLID(#21,#25,#26,2700.);
#28=IFCSHAPEREPRESENTATION(#1,'Body','SweptSolid',(#27));
#29=IFCPRODUCTDEFINITIONSHAPE($,$,(#28));
#30=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A elementedwall wall',$,#10,#29,$,.ELEMENTEDWALL.);
#31=IFCRELCONTAINEDINSPATIALSTRUCTURE('2ZAHNO3Qn8BxK$rKH6cl4D',$,'Wall Containment',$,(#30),#13);
#32=IFCPROPERTYSINGLEVALUE('LoadBearing',$,IFCBOOLEAN(.T.),$);
#33=IFCPROPERTYSINGLEVALUE('IsExternal',$,IFCBOOLEAN(.F.),$);
#34=IFCPROPERTYSINGLEVALUE('FireRating',$,IFCLABEL('F30'),$);
#35=IFCPROPERTYSET('2grnRSqIL7hh$liSj0W0Ht',$,'Pset_WallCommon',$,(#32,#33,#34));
#36=IFCRELDEFINESBYPROPERTIES('35A0dwNnD8fALlO7A2JM7c',$,'Wall Common Properties',$,(#30),#35); |
You are an IFC (Industry Foundation Classes) and BIM (Building Information Modeling) expert. Provide accurate, detailed, and practical answers to questions about IFC schemas, implementation, and usage in the AEC industry. | Create a complete IFC definition for a polygonal wall that is 150mm thick, 2400mm high, 4500mm long, made of Timber, load-bearing, internal, with fire rating F60. | #1=IFCPROJECT('3MDa0qu6X5eBFeTDmhEULg',$,'Sample Project',$,$,$,$,$,$);
#2=IFCSIUNIT(*,.LENGTHUNIT.,.MILLI.,.METRE.);
#3=IFCSIUNIT(*,.AREAUNIT.,$,.SQUARE_METRE.);
#4=IFCSIUNIT(*,.VOLUMEUNIT.,$,.CUBIC_METRE.);
#5=IFCUNITASSIGNMENT((#2,#3,#4));
#6=IFCCARTESIANPOINT((0.,0.,0.));
#7=IFCDIRECTION((0.,0.,1.));
#8=IFCDIRECTION((1.,0.,0.));
#9=IFCAXIS2PLACEMENT3D(#6,#7,#8);
#10=IFCLOCALPLACEMENT($,#9);
#11=IFCBUILDING('2aG1gZj7PD2PztLOx2$yoY',$,'Building',$,$,#10,$,$,$,.ELEMENT.,$,$,$);
#12=IFCRELAGGREGATES('1Dd9Lcp$D9OQWkO1$Ykphl',$,'Building Container',$,#1,(#11));
#13=IFCBUILDINGSTOREY('1zS3wBH99AOguUiArbHbX8',$,'Level 1','First Level',$,#10,$,$,$,.ELEMENT.,0.);
#14=IFCRELAGGREGATES('2MH0qYHvH8xgpuPHJrPH8t',$,'Storey Container',$,#11,(#13));
#15=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A polygonal wall',$,#10,$,$,.POLYGONAL.);
#16=IFCMATERIAL('Timber',$,$);
#17=IFCMATERIALLAYER(#16,150,.U.,$,$,$,$);
#18=IFCMATERIALLAYERSET((#17),'Timber - 150mm',$);
#19=IFCMATERIALLAYERSETUSAGE(#18,.AXIS2.,.NEGATIVE.,75.0.,$);
#20=IFCRELASSOCIATESMATERIAL('3qGDYRqI98RApqr6xHdZKe',$,'Material to Wall',$,(#15),#19);
#21=IFCRECTANGLEPROFILEDEF(.AREA.,'Wall Profile',$,4500.,150.);
#22=IFCCARTESIANPOINT((0.,0.,0.));
#23=IFCDIRECTION((0.,0.,1.));
#24=IFCDIRECTION((1.,0.,0.));
#25=IFCAXIS2PLACEMENT3D(#22,#23,#24);
#26=IFCDIRECTION((0.,0.,1.));
#27=IFCEXTRUDEDAREASOLID(#21,#25,#26,2400.);
#28=IFCSHAPEREPRESENTATION(#1,'Body','SweptSolid',(#27));
#29=IFCPRODUCTDEFINITIONSHAPE($,$,(#28));
#30=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A polygonal wall',$,#10,#29,$,.POLYGONAL.);
#31=IFCRELCONTAINEDINSPATIALSTRUCTURE('2ZAHNO3Qn8BxK$rKH6cl4D',$,'Wall Containment',$,(#30),#13);
#32=IFCPROPERTYSINGLEVALUE('LoadBearing',$,IFCBOOLEAN(.T.),$);
#33=IFCPROPERTYSINGLEVALUE('IsExternal',$,IFCBOOLEAN(.F.),$);
#34=IFCPROPERTYSINGLEVALUE('FireRating',$,IFCLABEL('F60'),$);
#35=IFCPROPERTYSET('2grnRSqIL7hh$liSj0W0Ht',$,'Pset_WallCommon',$,(#32,#33,#34));
#36=IFCRELDEFINESBYPROPERTIES('35A0dwNnD8fALlO7A2JM7c',$,'Wall Common Properties',$,(#30),#35); |
You are an IFC (Industry Foundation Classes) and BIM (Building Information Modeling) expert. Provide accurate, detailed, and practical answers to questions about IFC schemas, implementation, and usage in the AEC industry. | Create a complete IFC definition for a parapet wall that is 100mm thick, 2700mm high, 4000mm long, made of Masonry, load-bearing, external, with fire rating F240. | #1=IFCPROJECT('3MDa0qu6X5eBFeTDmhEULg',$,'Sample Project',$,$,$,$,$,$);
#2=IFCSIUNIT(*,.LENGTHUNIT.,.MILLI.,.METRE.);
#3=IFCSIUNIT(*,.AREAUNIT.,$,.SQUARE_METRE.);
#4=IFCSIUNIT(*,.VOLUMEUNIT.,$,.CUBIC_METRE.);
#5=IFCUNITASSIGNMENT((#2,#3,#4));
#6=IFCCARTESIANPOINT((0.,0.,0.));
#7=IFCDIRECTION((0.,0.,1.));
#8=IFCDIRECTION((1.,0.,0.));
#9=IFCAXIS2PLACEMENT3D(#6,#7,#8);
#10=IFCLOCALPLACEMENT($,#9);
#11=IFCBUILDING('2aG1gZj7PD2PztLOx2$yoY',$,'Building',$,$,#10,$,$,$,.ELEMENT.,$,$,$);
#12=IFCRELAGGREGATES('1Dd9Lcp$D9OQWkO1$Ykphl',$,'Building Container',$,#1,(#11));
#13=IFCBUILDINGSTOREY('1zS3wBH99AOguUiArbHbX8',$,'Level 1','First Level',$,#10,$,$,$,.ELEMENT.,0.);
#14=IFCRELAGGREGATES('2MH0qYHvH8xgpuPHJrPH8t',$,'Storey Container',$,#11,(#13));
#15=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A parapet wall',$,#10,$,$,.PARAPET.);
#16=IFCMATERIAL('Masonry',$,$);
#17=IFCMATERIALLAYER(#16,100,.U.,$,$,$,$);
#18=IFCMATERIALLAYERSET((#17),'Masonry - 100mm',$);
#19=IFCMATERIALLAYERSETUSAGE(#18,.AXIS2.,.NEGATIVE.,50.0.,$);
#20=IFCRELASSOCIATESMATERIAL('3qGDYRqI98RApqr6xHdZKe',$,'Material to Wall',$,(#15),#19);
#21=IFCRECTANGLEPROFILEDEF(.AREA.,'Wall Profile',$,4000.,100.);
#22=IFCCARTESIANPOINT((0.,0.,0.));
#23=IFCDIRECTION((0.,0.,1.));
#24=IFCDIRECTION((1.,0.,0.));
#25=IFCAXIS2PLACEMENT3D(#22,#23,#24);
#26=IFCDIRECTION((0.,0.,1.));
#27=IFCEXTRUDEDAREASOLID(#21,#25,#26,2700.);
#28=IFCSHAPEREPRESENTATION(#1,'Body','SweptSolid',(#27));
#29=IFCPRODUCTDEFINITIONSHAPE($,$,(#28));
#30=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A parapet wall',$,#10,#29,$,.PARAPET.);
#31=IFCRELCONTAINEDINSPATIALSTRUCTURE('2ZAHNO3Qn8BxK$rKH6cl4D',$,'Wall Containment',$,(#30),#13);
#32=IFCPROPERTYSINGLEVALUE('LoadBearing',$,IFCBOOLEAN(.T.),$);
#33=IFCPROPERTYSINGLEVALUE('IsExternal',$,IFCBOOLEAN(.T.),$);
#34=IFCPROPERTYSINGLEVALUE('FireRating',$,IFCLABEL('F240'),$);
#35=IFCPROPERTYSET('2grnRSqIL7hh$liSj0W0Ht',$,'Pset_WallCommon',$,(#32,#33,#34));
#36=IFCRELDEFINESBYPROPERTIES('35A0dwNnD8fALlO7A2JM7c',$,'Wall Common Properties',$,(#30),#35); |
You are an IFC (Industry Foundation Classes) and BIM (Building Information Modeling) expert. Provide accurate, detailed, and practical answers to questions about IFC schemas, implementation, and usage in the AEC industry. | Create a complete IFC definition for a retainingwall wall that is 380mm thick, 3300mm high, 7500mm long, made of Masonry, non-load-bearing, internal, with fire rating F240. | #1=IFCPROJECT('3MDa0qu6X5eBFeTDmhEULg',$,'Sample Project',$,$,$,$,$,$);
#2=IFCSIUNIT(*,.LENGTHUNIT.,.MILLI.,.METRE.);
#3=IFCSIUNIT(*,.AREAUNIT.,$,.SQUARE_METRE.);
#4=IFCSIUNIT(*,.VOLUMEUNIT.,$,.CUBIC_METRE.);
#5=IFCUNITASSIGNMENT((#2,#3,#4));
#6=IFCCARTESIANPOINT((0.,0.,0.));
#7=IFCDIRECTION((0.,0.,1.));
#8=IFCDIRECTION((1.,0.,0.));
#9=IFCAXIS2PLACEMENT3D(#6,#7,#8);
#10=IFCLOCALPLACEMENT($,#9);
#11=IFCBUILDING('2aG1gZj7PD2PztLOx2$yoY',$,'Building',$,$,#10,$,$,$,.ELEMENT.,$,$,$);
#12=IFCRELAGGREGATES('1Dd9Lcp$D9OQWkO1$Ykphl',$,'Building Container',$,#1,(#11));
#13=IFCBUILDINGSTOREY('1zS3wBH99AOguUiArbHbX8',$,'Level 1','First Level',$,#10,$,$,$,.ELEMENT.,0.);
#14=IFCRELAGGREGATES('2MH0qYHvH8xgpuPHJrPH8t',$,'Storey Container',$,#11,(#13));
#15=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A retainingwall wall',$,#10,$,$,.RETAININGWALL.);
#16=IFCMATERIAL('Masonry',$,$);
#17=IFCMATERIALLAYER(#16,380,.U.,$,$,$,$);
#18=IFCMATERIALLAYERSET((#17),'Masonry - 380mm',$);
#19=IFCMATERIALLAYERSETUSAGE(#18,.AXIS2.,.NEGATIVE.,190.0.,$);
#20=IFCRELASSOCIATESMATERIAL('3qGDYRqI98RApqr6xHdZKe',$,'Material to Wall',$,(#15),#19);
#21=IFCRECTANGLEPROFILEDEF(.AREA.,'Wall Profile',$,7500.,380.);
#22=IFCCARTESIANPOINT((0.,0.,0.));
#23=IFCDIRECTION((0.,0.,1.));
#24=IFCDIRECTION((1.,0.,0.));
#25=IFCAXIS2PLACEMENT3D(#22,#23,#24);
#26=IFCDIRECTION((0.,0.,1.));
#27=IFCEXTRUDEDAREASOLID(#21,#25,#26,3300.);
#28=IFCSHAPEREPRESENTATION(#1,'Body','SweptSolid',(#27));
#29=IFCPRODUCTDEFINITIONSHAPE($,$,(#28));
#30=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A retainingwall wall',$,#10,#29,$,.RETAININGWALL.);
#31=IFCRELCONTAINEDINSPATIALSTRUCTURE('2ZAHNO3Qn8BxK$rKH6cl4D',$,'Wall Containment',$,(#30),#13);
#32=IFCPROPERTYSINGLEVALUE('LoadBearing',$,IFCBOOLEAN(.F.),$);
#33=IFCPROPERTYSINGLEVALUE('IsExternal',$,IFCBOOLEAN(.F.),$);
#34=IFCPROPERTYSINGLEVALUE('FireRating',$,IFCLABEL('F240'),$);
#35=IFCPROPERTYSET('2grnRSqIL7hh$liSj0W0Ht',$,'Pset_WallCommon',$,(#32,#33,#34));
#36=IFCRELDEFINESBYPROPERTIES('35A0dwNnD8fALlO7A2JM7c',$,'Wall Common Properties',$,(#30),#35); |
You are an IFC (Industry Foundation Classes) and BIM (Building Information Modeling) expert. Provide accurate, detailed, and practical answers to questions about IFC schemas, implementation, and usage in the AEC industry. | Create a complete IFC definition for a polygonal wall that is 200mm thick, 2400mm high, 7500mm long, made of Timber, non-load-bearing, internal, with fire rating F30. | #1=IFCPROJECT('3MDa0qu6X5eBFeTDmhEULg',$,'Sample Project',$,$,$,$,$,$);
#2=IFCSIUNIT(*,.LENGTHUNIT.,.MILLI.,.METRE.);
#3=IFCSIUNIT(*,.AREAUNIT.,$,.SQUARE_METRE.);
#4=IFCSIUNIT(*,.VOLUMEUNIT.,$,.CUBIC_METRE.);
#5=IFCUNITASSIGNMENT((#2,#3,#4));
#6=IFCCARTESIANPOINT((0.,0.,0.));
#7=IFCDIRECTION((0.,0.,1.));
#8=IFCDIRECTION((1.,0.,0.));
#9=IFCAXIS2PLACEMENT3D(#6,#7,#8);
#10=IFCLOCALPLACEMENT($,#9);
#11=IFCBUILDING('2aG1gZj7PD2PztLOx2$yoY',$,'Building',$,$,#10,$,$,$,.ELEMENT.,$,$,$);
#12=IFCRELAGGREGATES('1Dd9Lcp$D9OQWkO1$Ykphl',$,'Building Container',$,#1,(#11));
#13=IFCBUILDINGSTOREY('1zS3wBH99AOguUiArbHbX8',$,'Level 1','First Level',$,#10,$,$,$,.ELEMENT.,0.);
#14=IFCRELAGGREGATES('2MH0qYHvH8xgpuPHJrPH8t',$,'Storey Container',$,#11,(#13));
#15=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A polygonal wall',$,#10,$,$,.POLYGONAL.);
#16=IFCMATERIAL('Timber',$,$);
#17=IFCMATERIALLAYER(#16,200,.U.,$,$,$,$);
#18=IFCMATERIALLAYERSET((#17),'Timber - 200mm',$);
#19=IFCMATERIALLAYERSETUSAGE(#18,.AXIS2.,.NEGATIVE.,100.0.,$);
#20=IFCRELASSOCIATESMATERIAL('3qGDYRqI98RApqr6xHdZKe',$,'Material to Wall',$,(#15),#19);
#21=IFCRECTANGLEPROFILEDEF(.AREA.,'Wall Profile',$,7500.,200.);
#22=IFCCARTESIANPOINT((0.,0.,0.));
#23=IFCDIRECTION((0.,0.,1.));
#24=IFCDIRECTION((1.,0.,0.));
#25=IFCAXIS2PLACEMENT3D(#22,#23,#24);
#26=IFCDIRECTION((0.,0.,1.));
#27=IFCEXTRUDEDAREASOLID(#21,#25,#26,2400.);
#28=IFCSHAPEREPRESENTATION(#1,'Body','SweptSolid',(#27));
#29=IFCPRODUCTDEFINITIONSHAPE($,$,(#28));
#30=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A polygonal wall',$,#10,#29,$,.POLYGONAL.);
#31=IFCRELCONTAINEDINSPATIALSTRUCTURE('2ZAHNO3Qn8BxK$rKH6cl4D',$,'Wall Containment',$,(#30),#13);
#32=IFCPROPERTYSINGLEVALUE('LoadBearing',$,IFCBOOLEAN(.F.),$);
#33=IFCPROPERTYSINGLEVALUE('IsExternal',$,IFCBOOLEAN(.F.),$);
#34=IFCPROPERTYSINGLEVALUE('FireRating',$,IFCLABEL('F30'),$);
#35=IFCPROPERTYSET('2grnRSqIL7hh$liSj0W0Ht',$,'Pset_WallCommon',$,(#32,#33,#34));
#36=IFCRELDEFINESBYPROPERTIES('35A0dwNnD8fALlO7A2JM7c',$,'Wall Common Properties',$,(#30),#35); |
You are an IFC (Industry Foundation Classes) and BIM (Building Information Modeling) expert. Provide accurate, detailed, and practical answers to questions about IFC schemas, implementation, and usage in the AEC industry. | Create a complete IFC definition for a shear wall that is 150mm thick, 4500mm high, 7500mm long, made of Masonry, load-bearing, internal, with fire rating F60. | #1=IFCPROJECT('3MDa0qu6X5eBFeTDmhEULg',$,'Sample Project',$,$,$,$,$,$);
#2=IFCSIUNIT(*,.LENGTHUNIT.,.MILLI.,.METRE.);
#3=IFCSIUNIT(*,.AREAUNIT.,$,.SQUARE_METRE.);
#4=IFCSIUNIT(*,.VOLUMEUNIT.,$,.CUBIC_METRE.);
#5=IFCUNITASSIGNMENT((#2,#3,#4));
#6=IFCCARTESIANPOINT((0.,0.,0.));
#7=IFCDIRECTION((0.,0.,1.));
#8=IFCDIRECTION((1.,0.,0.));
#9=IFCAXIS2PLACEMENT3D(#6,#7,#8);
#10=IFCLOCALPLACEMENT($,#9);
#11=IFCBUILDING('2aG1gZj7PD2PztLOx2$yoY',$,'Building',$,$,#10,$,$,$,.ELEMENT.,$,$,$);
#12=IFCRELAGGREGATES('1Dd9Lcp$D9OQWkO1$Ykphl',$,'Building Container',$,#1,(#11));
#13=IFCBUILDINGSTOREY('1zS3wBH99AOguUiArbHbX8',$,'Level 1','First Level',$,#10,$,$,$,.ELEMENT.,0.);
#14=IFCRELAGGREGATES('2MH0qYHvH8xgpuPHJrPH8t',$,'Storey Container',$,#11,(#13));
#15=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A shear wall',$,#10,$,$,.SHEAR.);
#16=IFCMATERIAL('Masonry',$,$);
#17=IFCMATERIALLAYER(#16,150,.U.,$,$,$,$);
#18=IFCMATERIALLAYERSET((#17),'Masonry - 150mm',$);
#19=IFCMATERIALLAYERSETUSAGE(#18,.AXIS2.,.NEGATIVE.,75.0.,$);
#20=IFCRELASSOCIATESMATERIAL('3qGDYRqI98RApqr6xHdZKe',$,'Material to Wall',$,(#15),#19);
#21=IFCRECTANGLEPROFILEDEF(.AREA.,'Wall Profile',$,7500.,150.);
#22=IFCCARTESIANPOINT((0.,0.,0.));
#23=IFCDIRECTION((0.,0.,1.));
#24=IFCDIRECTION((1.,0.,0.));
#25=IFCAXIS2PLACEMENT3D(#22,#23,#24);
#26=IFCDIRECTION((0.,0.,1.));
#27=IFCEXTRUDEDAREASOLID(#21,#25,#26,4500.);
#28=IFCSHAPEREPRESENTATION(#1,'Body','SweptSolid',(#27));
#29=IFCPRODUCTDEFINITIONSHAPE($,$,(#28));
#30=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A shear wall',$,#10,#29,$,.SHEAR.);
#31=IFCRELCONTAINEDINSPATIALSTRUCTURE('2ZAHNO3Qn8BxK$rKH6cl4D',$,'Wall Containment',$,(#30),#13);
#32=IFCPROPERTYSINGLEVALUE('LoadBearing',$,IFCBOOLEAN(.T.),$);
#33=IFCPROPERTYSINGLEVALUE('IsExternal',$,IFCBOOLEAN(.F.),$);
#34=IFCPROPERTYSINGLEVALUE('FireRating',$,IFCLABEL('F60'),$);
#35=IFCPROPERTYSET('2grnRSqIL7hh$liSj0W0Ht',$,'Pset_WallCommon',$,(#32,#33,#34));
#36=IFCRELDEFINESBYPROPERTIES('35A0dwNnD8fALlO7A2JM7c',$,'Wall Common Properties',$,(#30),#35); |
You are an IFC (Industry Foundation Classes) and BIM (Building Information Modeling) expert. Provide accurate, detailed, and practical answers to questions about IFC schemas, implementation, and usage in the AEC industry. | Create a complete IFC definition for a parapet wall that is 250mm thick, 4000mm high, 4000mm long, made of Concrete, non-load-bearing, internal, with fire rating F240. | #1=IFCPROJECT('3MDa0qu6X5eBFeTDmhEULg',$,'Sample Project',$,$,$,$,$,$);
#2=IFCSIUNIT(*,.LENGTHUNIT.,.MILLI.,.METRE.);
#3=IFCSIUNIT(*,.AREAUNIT.,$,.SQUARE_METRE.);
#4=IFCSIUNIT(*,.VOLUMEUNIT.,$,.CUBIC_METRE.);
#5=IFCUNITASSIGNMENT((#2,#3,#4));
#6=IFCCARTESIANPOINT((0.,0.,0.));
#7=IFCDIRECTION((0.,0.,1.));
#8=IFCDIRECTION((1.,0.,0.));
#9=IFCAXIS2PLACEMENT3D(#6,#7,#8);
#10=IFCLOCALPLACEMENT($,#9);
#11=IFCBUILDING('2aG1gZj7PD2PztLOx2$yoY',$,'Building',$,$,#10,$,$,$,.ELEMENT.,$,$,$);
#12=IFCRELAGGREGATES('1Dd9Lcp$D9OQWkO1$Ykphl',$,'Building Container',$,#1,(#11));
#13=IFCBUILDINGSTOREY('1zS3wBH99AOguUiArbHbX8',$,'Level 1','First Level',$,#10,$,$,$,.ELEMENT.,0.);
#14=IFCRELAGGREGATES('2MH0qYHvH8xgpuPHJrPH8t',$,'Storey Container',$,#11,(#13));
#15=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A parapet wall',$,#10,$,$,.PARAPET.);
#16=IFCMATERIAL('Concrete',$,$);
#17=IFCMATERIALLAYER(#16,250,.U.,$,$,$,$);
#18=IFCMATERIALLAYERSET((#17),'Concrete - 250mm',$);
#19=IFCMATERIALLAYERSETUSAGE(#18,.AXIS2.,.NEGATIVE.,125.0.,$);
#20=IFCRELASSOCIATESMATERIAL('3qGDYRqI98RApqr6xHdZKe',$,'Material to Wall',$,(#15),#19);
#21=IFCRECTANGLEPROFILEDEF(.AREA.,'Wall Profile',$,4000.,250.);
#22=IFCCARTESIANPOINT((0.,0.,0.));
#23=IFCDIRECTION((0.,0.,1.));
#24=IFCDIRECTION((1.,0.,0.));
#25=IFCAXIS2PLACEMENT3D(#22,#23,#24);
#26=IFCDIRECTION((0.,0.,1.));
#27=IFCEXTRUDEDAREASOLID(#21,#25,#26,4000.);
#28=IFCSHAPEREPRESENTATION(#1,'Body','SweptSolid',(#27));
#29=IFCPRODUCTDEFINITIONSHAPE($,$,(#28));
#30=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A parapet wall',$,#10,#29,$,.PARAPET.);
#31=IFCRELCONTAINEDINSPATIALSTRUCTURE('2ZAHNO3Qn8BxK$rKH6cl4D',$,'Wall Containment',$,(#30),#13);
#32=IFCPROPERTYSINGLEVALUE('LoadBearing',$,IFCBOOLEAN(.F.),$);
#33=IFCPROPERTYSINGLEVALUE('IsExternal',$,IFCBOOLEAN(.F.),$);
#34=IFCPROPERTYSINGLEVALUE('FireRating',$,IFCLABEL('F240'),$);
#35=IFCPROPERTYSET('2grnRSqIL7hh$liSj0W0Ht',$,'Pset_WallCommon',$,(#32,#33,#34));
#36=IFCRELDEFINESBYPROPERTIES('35A0dwNnD8fALlO7A2JM7c',$,'Wall Common Properties',$,(#30),#35); |
You are an IFC (Industry Foundation Classes) and BIM (Building Information Modeling) expert. Provide accurate, detailed, and practical answers to questions about IFC schemas, implementation, and usage in the AEC industry. | Create a complete IFC definition for a retainingwall wall that is 250mm thick, 3300mm high, 4000mm long, made of Masonry, load-bearing, external, with fire rating F120. | #1=IFCPROJECT('3MDa0qu6X5eBFeTDmhEULg',$,'Sample Project',$,$,$,$,$,$);
#2=IFCSIUNIT(*,.LENGTHUNIT.,.MILLI.,.METRE.);
#3=IFCSIUNIT(*,.AREAUNIT.,$,.SQUARE_METRE.);
#4=IFCSIUNIT(*,.VOLUMEUNIT.,$,.CUBIC_METRE.);
#5=IFCUNITASSIGNMENT((#2,#3,#4));
#6=IFCCARTESIANPOINT((0.,0.,0.));
#7=IFCDIRECTION((0.,0.,1.));
#8=IFCDIRECTION((1.,0.,0.));
#9=IFCAXIS2PLACEMENT3D(#6,#7,#8);
#10=IFCLOCALPLACEMENT($,#9);
#11=IFCBUILDING('2aG1gZj7PD2PztLOx2$yoY',$,'Building',$,$,#10,$,$,$,.ELEMENT.,$,$,$);
#12=IFCRELAGGREGATES('1Dd9Lcp$D9OQWkO1$Ykphl',$,'Building Container',$,#1,(#11));
#13=IFCBUILDINGSTOREY('1zS3wBH99AOguUiArbHbX8',$,'Level 1','First Level',$,#10,$,$,$,.ELEMENT.,0.);
#14=IFCRELAGGREGATES('2MH0qYHvH8xgpuPHJrPH8t',$,'Storey Container',$,#11,(#13));
#15=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A retainingwall wall',$,#10,$,$,.RETAININGWALL.);
#16=IFCMATERIAL('Masonry',$,$);
#17=IFCMATERIALLAYER(#16,250,.U.,$,$,$,$);
#18=IFCMATERIALLAYERSET((#17),'Masonry - 250mm',$);
#19=IFCMATERIALLAYERSETUSAGE(#18,.AXIS2.,.NEGATIVE.,125.0.,$);
#20=IFCRELASSOCIATESMATERIAL('3qGDYRqI98RApqr6xHdZKe',$,'Material to Wall',$,(#15),#19);
#21=IFCRECTANGLEPROFILEDEF(.AREA.,'Wall Profile',$,4000.,250.);
#22=IFCCARTESIANPOINT((0.,0.,0.));
#23=IFCDIRECTION((0.,0.,1.));
#24=IFCDIRECTION((1.,0.,0.));
#25=IFCAXIS2PLACEMENT3D(#22,#23,#24);
#26=IFCDIRECTION((0.,0.,1.));
#27=IFCEXTRUDEDAREASOLID(#21,#25,#26,3300.);
#28=IFCSHAPEREPRESENTATION(#1,'Body','SweptSolid',(#27));
#29=IFCPRODUCTDEFINITIONSHAPE($,$,(#28));
#30=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A retainingwall wall',$,#10,#29,$,.RETAININGWALL.);
#31=IFCRELCONTAINEDINSPATIALSTRUCTURE('2ZAHNO3Qn8BxK$rKH6cl4D',$,'Wall Containment',$,(#30),#13);
#32=IFCPROPERTYSINGLEVALUE('LoadBearing',$,IFCBOOLEAN(.T.),$);
#33=IFCPROPERTYSINGLEVALUE('IsExternal',$,IFCBOOLEAN(.T.),$);
#34=IFCPROPERTYSINGLEVALUE('FireRating',$,IFCLABEL('F120'),$);
#35=IFCPROPERTYSET('2grnRSqIL7hh$liSj0W0Ht',$,'Pset_WallCommon',$,(#32,#33,#34));
#36=IFCRELDEFINESBYPROPERTIES('35A0dwNnD8fALlO7A2JM7c',$,'Wall Common Properties',$,(#30),#35); |
You are an IFC (Industry Foundation Classes) and BIM (Building Information Modeling) expert. Provide accurate, detailed, and practical answers to questions about IFC schemas, implementation, and usage in the AEC industry. | Create a complete IFC definition for a movable wall that is 300mm thick, 2700mm high, 5000mm long, made of Masonry, load-bearing, internal, with fire rating F30. | #1=IFCPROJECT('3MDa0qu6X5eBFeTDmhEULg',$,'Sample Project',$,$,$,$,$,$);
#2=IFCSIUNIT(*,.LENGTHUNIT.,.MILLI.,.METRE.);
#3=IFCSIUNIT(*,.AREAUNIT.,$,.SQUARE_METRE.);
#4=IFCSIUNIT(*,.VOLUMEUNIT.,$,.CUBIC_METRE.);
#5=IFCUNITASSIGNMENT((#2,#3,#4));
#6=IFCCARTESIANPOINT((0.,0.,0.));
#7=IFCDIRECTION((0.,0.,1.));
#8=IFCDIRECTION((1.,0.,0.));
#9=IFCAXIS2PLACEMENT3D(#6,#7,#8);
#10=IFCLOCALPLACEMENT($,#9);
#11=IFCBUILDING('2aG1gZj7PD2PztLOx2$yoY',$,'Building',$,$,#10,$,$,$,.ELEMENT.,$,$,$);
#12=IFCRELAGGREGATES('1Dd9Lcp$D9OQWkO1$Ykphl',$,'Building Container',$,#1,(#11));
#13=IFCBUILDINGSTOREY('1zS3wBH99AOguUiArbHbX8',$,'Level 1','First Level',$,#10,$,$,$,.ELEMENT.,0.);
#14=IFCRELAGGREGATES('2MH0qYHvH8xgpuPHJrPH8t',$,'Storey Container',$,#11,(#13));
#15=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A movable wall',$,#10,$,$,.MOVABLE.);
#16=IFCMATERIAL('Masonry',$,$);
#17=IFCMATERIALLAYER(#16,300,.U.,$,$,$,$);
#18=IFCMATERIALLAYERSET((#17),'Masonry - 300mm',$);
#19=IFCMATERIALLAYERSETUSAGE(#18,.AXIS2.,.NEGATIVE.,150.0.,$);
#20=IFCRELASSOCIATESMATERIAL('3qGDYRqI98RApqr6xHdZKe',$,'Material to Wall',$,(#15),#19);
#21=IFCRECTANGLEPROFILEDEF(.AREA.,'Wall Profile',$,5000.,300.);
#22=IFCCARTESIANPOINT((0.,0.,0.));
#23=IFCDIRECTION((0.,0.,1.));
#24=IFCDIRECTION((1.,0.,0.));
#25=IFCAXIS2PLACEMENT3D(#22,#23,#24);
#26=IFCDIRECTION((0.,0.,1.));
#27=IFCEXTRUDEDAREASOLID(#21,#25,#26,2700.);
#28=IFCSHAPEREPRESENTATION(#1,'Body','SweptSolid',(#27));
#29=IFCPRODUCTDEFINITIONSHAPE($,$,(#28));
#30=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A movable wall',$,#10,#29,$,.MOVABLE.);
#31=IFCRELCONTAINEDINSPATIALSTRUCTURE('2ZAHNO3Qn8BxK$rKH6cl4D',$,'Wall Containment',$,(#30),#13);
#32=IFCPROPERTYSINGLEVALUE('LoadBearing',$,IFCBOOLEAN(.T.),$);
#33=IFCPROPERTYSINGLEVALUE('IsExternal',$,IFCBOOLEAN(.F.),$);
#34=IFCPROPERTYSINGLEVALUE('FireRating',$,IFCLABEL('F30'),$);
#35=IFCPROPERTYSET('2grnRSqIL7hh$liSj0W0Ht',$,'Pset_WallCommon',$,(#32,#33,#34));
#36=IFCRELDEFINESBYPROPERTIES('35A0dwNnD8fALlO7A2JM7c',$,'Wall Common Properties',$,(#30),#35); |
You are an IFC (Industry Foundation Classes) and BIM (Building Information Modeling) expert. Provide accurate, detailed, and practical answers to questions about IFC schemas, implementation, and usage in the AEC industry. | Create a complete IFC definition for a solidwall wall that is 200mm thick, 2700mm high, 4500mm long, made of Timber, non-load-bearing, external, with fire rating F180. | #1=IFCPROJECT('3MDa0qu6X5eBFeTDmhEULg',$,'Sample Project',$,$,$,$,$,$);
#2=IFCSIUNIT(*,.LENGTHUNIT.,.MILLI.,.METRE.);
#3=IFCSIUNIT(*,.AREAUNIT.,$,.SQUARE_METRE.);
#4=IFCSIUNIT(*,.VOLUMEUNIT.,$,.CUBIC_METRE.);
#5=IFCUNITASSIGNMENT((#2,#3,#4));
#6=IFCCARTESIANPOINT((0.,0.,0.));
#7=IFCDIRECTION((0.,0.,1.));
#8=IFCDIRECTION((1.,0.,0.));
#9=IFCAXIS2PLACEMENT3D(#6,#7,#8);
#10=IFCLOCALPLACEMENT($,#9);
#11=IFCBUILDING('2aG1gZj7PD2PztLOx2$yoY',$,'Building',$,$,#10,$,$,$,.ELEMENT.,$,$,$);
#12=IFCRELAGGREGATES('1Dd9Lcp$D9OQWkO1$Ykphl',$,'Building Container',$,#1,(#11));
#13=IFCBUILDINGSTOREY('1zS3wBH99AOguUiArbHbX8',$,'Level 1','First Level',$,#10,$,$,$,.ELEMENT.,0.);
#14=IFCRELAGGREGATES('2MH0qYHvH8xgpuPHJrPH8t',$,'Storey Container',$,#11,(#13));
#15=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A solidwall wall',$,#10,$,$,.SOLIDWALL.);
#16=IFCMATERIAL('Timber',$,$);
#17=IFCMATERIALLAYER(#16,200,.U.,$,$,$,$);
#18=IFCMATERIALLAYERSET((#17),'Timber - 200mm',$);
#19=IFCMATERIALLAYERSETUSAGE(#18,.AXIS2.,.NEGATIVE.,100.0.,$);
#20=IFCRELASSOCIATESMATERIAL('3qGDYRqI98RApqr6xHdZKe',$,'Material to Wall',$,(#15),#19);
#21=IFCRECTANGLEPROFILEDEF(.AREA.,'Wall Profile',$,4500.,200.);
#22=IFCCARTESIANPOINT((0.,0.,0.));
#23=IFCDIRECTION((0.,0.,1.));
#24=IFCDIRECTION((1.,0.,0.));
#25=IFCAXIS2PLACEMENT3D(#22,#23,#24);
#26=IFCDIRECTION((0.,0.,1.));
#27=IFCEXTRUDEDAREASOLID(#21,#25,#26,2700.);
#28=IFCSHAPEREPRESENTATION(#1,'Body','SweptSolid',(#27));
#29=IFCPRODUCTDEFINITIONSHAPE($,$,(#28));
#30=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A solidwall wall',$,#10,#29,$,.SOLIDWALL.);
#31=IFCRELCONTAINEDINSPATIALSTRUCTURE('2ZAHNO3Qn8BxK$rKH6cl4D',$,'Wall Containment',$,(#30),#13);
#32=IFCPROPERTYSINGLEVALUE('LoadBearing',$,IFCBOOLEAN(.F.),$);
#33=IFCPROPERTYSINGLEVALUE('IsExternal',$,IFCBOOLEAN(.T.),$);
#34=IFCPROPERTYSINGLEVALUE('FireRating',$,IFCLABEL('F180'),$);
#35=IFCPROPERTYSET('2grnRSqIL7hh$liSj0W0Ht',$,'Pset_WallCommon',$,(#32,#33,#34));
#36=IFCRELDEFINESBYPROPERTIES('35A0dwNnD8fALlO7A2JM7c',$,'Wall Common Properties',$,(#30),#35); |
You are an IFC (Industry Foundation Classes) and BIM (Building Information Modeling) expert. Provide accurate, detailed, and practical answers to questions about IFC schemas, implementation, and usage in the AEC industry. | Create a complete IFC definition for a partitioning wall that is 100mm thick, 2700mm high, 12000mm long, made of Masonry, non-load-bearing, internal, with fire rating F240. | #1=IFCPROJECT('3MDa0qu6X5eBFeTDmhEULg',$,'Sample Project',$,$,$,$,$,$);
#2=IFCSIUNIT(*,.LENGTHUNIT.,.MILLI.,.METRE.);
#3=IFCSIUNIT(*,.AREAUNIT.,$,.SQUARE_METRE.);
#4=IFCSIUNIT(*,.VOLUMEUNIT.,$,.CUBIC_METRE.);
#5=IFCUNITASSIGNMENT((#2,#3,#4));
#6=IFCCARTESIANPOINT((0.,0.,0.));
#7=IFCDIRECTION((0.,0.,1.));
#8=IFCDIRECTION((1.,0.,0.));
#9=IFCAXIS2PLACEMENT3D(#6,#7,#8);
#10=IFCLOCALPLACEMENT($,#9);
#11=IFCBUILDING('2aG1gZj7PD2PztLOx2$yoY',$,'Building',$,$,#10,$,$,$,.ELEMENT.,$,$,$);
#12=IFCRELAGGREGATES('1Dd9Lcp$D9OQWkO1$Ykphl',$,'Building Container',$,#1,(#11));
#13=IFCBUILDINGSTOREY('1zS3wBH99AOguUiArbHbX8',$,'Level 1','First Level',$,#10,$,$,$,.ELEMENT.,0.);
#14=IFCRELAGGREGATES('2MH0qYHvH8xgpuPHJrPH8t',$,'Storey Container',$,#11,(#13));
#15=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A partitioning wall',$,#10,$,$,.PARTITIONING.);
#16=IFCMATERIAL('Masonry',$,$);
#17=IFCMATERIALLAYER(#16,100,.U.,$,$,$,$);
#18=IFCMATERIALLAYERSET((#17),'Masonry - 100mm',$);
#19=IFCMATERIALLAYERSETUSAGE(#18,.AXIS2.,.NEGATIVE.,50.0.,$);
#20=IFCRELASSOCIATESMATERIAL('3qGDYRqI98RApqr6xHdZKe',$,'Material to Wall',$,(#15),#19);
#21=IFCRECTANGLEPROFILEDEF(.AREA.,'Wall Profile',$,12000.,100.);
#22=IFCCARTESIANPOINT((0.,0.,0.));
#23=IFCDIRECTION((0.,0.,1.));
#24=IFCDIRECTION((1.,0.,0.));
#25=IFCAXIS2PLACEMENT3D(#22,#23,#24);
#26=IFCDIRECTION((0.,0.,1.));
#27=IFCEXTRUDEDAREASOLID(#21,#25,#26,2700.);
#28=IFCSHAPEREPRESENTATION(#1,'Body','SweptSolid',(#27));
#29=IFCPRODUCTDEFINITIONSHAPE($,$,(#28));
#30=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A partitioning wall',$,#10,#29,$,.PARTITIONING.);
#31=IFCRELCONTAINEDINSPATIALSTRUCTURE('2ZAHNO3Qn8BxK$rKH6cl4D',$,'Wall Containment',$,(#30),#13);
#32=IFCPROPERTYSINGLEVALUE('LoadBearing',$,IFCBOOLEAN(.F.),$);
#33=IFCPROPERTYSINGLEVALUE('IsExternal',$,IFCBOOLEAN(.F.),$);
#34=IFCPROPERTYSINGLEVALUE('FireRating',$,IFCLABEL('F240'),$);
#35=IFCPROPERTYSET('2grnRSqIL7hh$liSj0W0Ht',$,'Pset_WallCommon',$,(#32,#33,#34));
#36=IFCRELDEFINESBYPROPERTIES('35A0dwNnD8fALlO7A2JM7c',$,'Wall Common Properties',$,(#30),#35); |
You are an IFC (Industry Foundation Classes) and BIM (Building Information Modeling) expert. Provide accurate, detailed, and practical answers to questions about IFC schemas, implementation, and usage in the AEC industry. | Create a complete IFC definition for a movable wall that is 300mm thick, 3600mm high, 4000mm long, made of Masonry, non-load-bearing, internal, with fire rating F60. | #1=IFCPROJECT('3MDa0qu6X5eBFeTDmhEULg',$,'Sample Project',$,$,$,$,$,$);
#2=IFCSIUNIT(*,.LENGTHUNIT.,.MILLI.,.METRE.);
#3=IFCSIUNIT(*,.AREAUNIT.,$,.SQUARE_METRE.);
#4=IFCSIUNIT(*,.VOLUMEUNIT.,$,.CUBIC_METRE.);
#5=IFCUNITASSIGNMENT((#2,#3,#4));
#6=IFCCARTESIANPOINT((0.,0.,0.));
#7=IFCDIRECTION((0.,0.,1.));
#8=IFCDIRECTION((1.,0.,0.));
#9=IFCAXIS2PLACEMENT3D(#6,#7,#8);
#10=IFCLOCALPLACEMENT($,#9);
#11=IFCBUILDING('2aG1gZj7PD2PztLOx2$yoY',$,'Building',$,$,#10,$,$,$,.ELEMENT.,$,$,$);
#12=IFCRELAGGREGATES('1Dd9Lcp$D9OQWkO1$Ykphl',$,'Building Container',$,#1,(#11));
#13=IFCBUILDINGSTOREY('1zS3wBH99AOguUiArbHbX8',$,'Level 1','First Level',$,#10,$,$,$,.ELEMENT.,0.);
#14=IFCRELAGGREGATES('2MH0qYHvH8xgpuPHJrPH8t',$,'Storey Container',$,#11,(#13));
#15=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A movable wall',$,#10,$,$,.MOVABLE.);
#16=IFCMATERIAL('Masonry',$,$);
#17=IFCMATERIALLAYER(#16,300,.U.,$,$,$,$);
#18=IFCMATERIALLAYERSET((#17),'Masonry - 300mm',$);
#19=IFCMATERIALLAYERSETUSAGE(#18,.AXIS2.,.NEGATIVE.,150.0.,$);
#20=IFCRELASSOCIATESMATERIAL('3qGDYRqI98RApqr6xHdZKe',$,'Material to Wall',$,(#15),#19);
#21=IFCRECTANGLEPROFILEDEF(.AREA.,'Wall Profile',$,4000.,300.);
#22=IFCCARTESIANPOINT((0.,0.,0.));
#23=IFCDIRECTION((0.,0.,1.));
#24=IFCDIRECTION((1.,0.,0.));
#25=IFCAXIS2PLACEMENT3D(#22,#23,#24);
#26=IFCDIRECTION((0.,0.,1.));
#27=IFCEXTRUDEDAREASOLID(#21,#25,#26,3600.);
#28=IFCSHAPEREPRESENTATION(#1,'Body','SweptSolid',(#27));
#29=IFCPRODUCTDEFINITIONSHAPE($,$,(#28));
#30=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A movable wall',$,#10,#29,$,.MOVABLE.);
#31=IFCRELCONTAINEDINSPATIALSTRUCTURE('2ZAHNO3Qn8BxK$rKH6cl4D',$,'Wall Containment',$,(#30),#13);
#32=IFCPROPERTYSINGLEVALUE('LoadBearing',$,IFCBOOLEAN(.F.),$);
#33=IFCPROPERTYSINGLEVALUE('IsExternal',$,IFCBOOLEAN(.F.),$);
#34=IFCPROPERTYSINGLEVALUE('FireRating',$,IFCLABEL('F60'),$);
#35=IFCPROPERTYSET('2grnRSqIL7hh$liSj0W0Ht',$,'Pset_WallCommon',$,(#32,#33,#34));
#36=IFCRELDEFINESBYPROPERTIES('35A0dwNnD8fALlO7A2JM7c',$,'Wall Common Properties',$,(#30),#35); |
You are an IFC (Industry Foundation Classes) and BIM (Building Information Modeling) expert. Provide accurate, detailed, and practical answers to questions about IFC schemas, implementation, and usage in the AEC industry. | Create a complete IFC definition for a plumbingwall wall that is 50mm thick, 3300mm high, 3000mm long, made of Timber, non-load-bearing, external, with fire rating F120. | #1=IFCPROJECT('3MDa0qu6X5eBFeTDmhEULg',$,'Sample Project',$,$,$,$,$,$);
#2=IFCSIUNIT(*,.LENGTHUNIT.,.MILLI.,.METRE.);
#3=IFCSIUNIT(*,.AREAUNIT.,$,.SQUARE_METRE.);
#4=IFCSIUNIT(*,.VOLUMEUNIT.,$,.CUBIC_METRE.);
#5=IFCUNITASSIGNMENT((#2,#3,#4));
#6=IFCCARTESIANPOINT((0.,0.,0.));
#7=IFCDIRECTION((0.,0.,1.));
#8=IFCDIRECTION((1.,0.,0.));
#9=IFCAXIS2PLACEMENT3D(#6,#7,#8);
#10=IFCLOCALPLACEMENT($,#9);
#11=IFCBUILDING('2aG1gZj7PD2PztLOx2$yoY',$,'Building',$,$,#10,$,$,$,.ELEMENT.,$,$,$);
#12=IFCRELAGGREGATES('1Dd9Lcp$D9OQWkO1$Ykphl',$,'Building Container',$,#1,(#11));
#13=IFCBUILDINGSTOREY('1zS3wBH99AOguUiArbHbX8',$,'Level 1','First Level',$,#10,$,$,$,.ELEMENT.,0.);
#14=IFCRELAGGREGATES('2MH0qYHvH8xgpuPHJrPH8t',$,'Storey Container',$,#11,(#13));
#15=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A plumbingwall wall',$,#10,$,$,.PLUMBINGWALL.);
#16=IFCMATERIAL('Timber',$,$);
#17=IFCMATERIALLAYER(#16,50,.U.,$,$,$,$);
#18=IFCMATERIALLAYERSET((#17),'Timber - 50mm',$);
#19=IFCMATERIALLAYERSETUSAGE(#18,.AXIS2.,.NEGATIVE.,25.0.,$);
#20=IFCRELASSOCIATESMATERIAL('3qGDYRqI98RApqr6xHdZKe',$,'Material to Wall',$,(#15),#19);
#21=IFCRECTANGLEPROFILEDEF(.AREA.,'Wall Profile',$,3000.,50.);
#22=IFCCARTESIANPOINT((0.,0.,0.));
#23=IFCDIRECTION((0.,0.,1.));
#24=IFCDIRECTION((1.,0.,0.));
#25=IFCAXIS2PLACEMENT3D(#22,#23,#24);
#26=IFCDIRECTION((0.,0.,1.));
#27=IFCEXTRUDEDAREASOLID(#21,#25,#26,3300.);
#28=IFCSHAPEREPRESENTATION(#1,'Body','SweptSolid',(#27));
#29=IFCPRODUCTDEFINITIONSHAPE($,$,(#28));
#30=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A plumbingwall wall',$,#10,#29,$,.PLUMBINGWALL.);
#31=IFCRELCONTAINEDINSPATIALSTRUCTURE('2ZAHNO3Qn8BxK$rKH6cl4D',$,'Wall Containment',$,(#30),#13);
#32=IFCPROPERTYSINGLEVALUE('LoadBearing',$,IFCBOOLEAN(.F.),$);
#33=IFCPROPERTYSINGLEVALUE('IsExternal',$,IFCBOOLEAN(.T.),$);
#34=IFCPROPERTYSINGLEVALUE('FireRating',$,IFCLABEL('F120'),$);
#35=IFCPROPERTYSET('2grnRSqIL7hh$liSj0W0Ht',$,'Pset_WallCommon',$,(#32,#33,#34));
#36=IFCRELDEFINESBYPROPERTIES('35A0dwNnD8fALlO7A2JM7c',$,'Wall Common Properties',$,(#30),#35); |
You are an IFC (Industry Foundation Classes) and BIM (Building Information Modeling) expert. Provide accurate, detailed, and practical answers to questions about IFC schemas, implementation, and usage in the AEC industry. | Create a complete IFC definition for a parapet wall that is 150mm thick, 3000mm high, 5000mm long, made of Concrete, non-load-bearing, internal, with fire rating F60. | #1=IFCPROJECT('3MDa0qu6X5eBFeTDmhEULg',$,'Sample Project',$,$,$,$,$,$);
#2=IFCSIUNIT(*,.LENGTHUNIT.,.MILLI.,.METRE.);
#3=IFCSIUNIT(*,.AREAUNIT.,$,.SQUARE_METRE.);
#4=IFCSIUNIT(*,.VOLUMEUNIT.,$,.CUBIC_METRE.);
#5=IFCUNITASSIGNMENT((#2,#3,#4));
#6=IFCCARTESIANPOINT((0.,0.,0.));
#7=IFCDIRECTION((0.,0.,1.));
#8=IFCDIRECTION((1.,0.,0.));
#9=IFCAXIS2PLACEMENT3D(#6,#7,#8);
#10=IFCLOCALPLACEMENT($,#9);
#11=IFCBUILDING('2aG1gZj7PD2PztLOx2$yoY',$,'Building',$,$,#10,$,$,$,.ELEMENT.,$,$,$);
#12=IFCRELAGGREGATES('1Dd9Lcp$D9OQWkO1$Ykphl',$,'Building Container',$,#1,(#11));
#13=IFCBUILDINGSTOREY('1zS3wBH99AOguUiArbHbX8',$,'Level 1','First Level',$,#10,$,$,$,.ELEMENT.,0.);
#14=IFCRELAGGREGATES('2MH0qYHvH8xgpuPHJrPH8t',$,'Storey Container',$,#11,(#13));
#15=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A parapet wall',$,#10,$,$,.PARAPET.);
#16=IFCMATERIAL('Concrete',$,$);
#17=IFCMATERIALLAYER(#16,150,.U.,$,$,$,$);
#18=IFCMATERIALLAYERSET((#17),'Concrete - 150mm',$);
#19=IFCMATERIALLAYERSETUSAGE(#18,.AXIS2.,.NEGATIVE.,75.0.,$);
#20=IFCRELASSOCIATESMATERIAL('3qGDYRqI98RApqr6xHdZKe',$,'Material to Wall',$,(#15),#19);
#21=IFCRECTANGLEPROFILEDEF(.AREA.,'Wall Profile',$,5000.,150.);
#22=IFCCARTESIANPOINT((0.,0.,0.));
#23=IFCDIRECTION((0.,0.,1.));
#24=IFCDIRECTION((1.,0.,0.));
#25=IFCAXIS2PLACEMENT3D(#22,#23,#24);
#26=IFCDIRECTION((0.,0.,1.));
#27=IFCEXTRUDEDAREASOLID(#21,#25,#26,3000.);
#28=IFCSHAPEREPRESENTATION(#1,'Body','SweptSolid',(#27));
#29=IFCPRODUCTDEFINITIONSHAPE($,$,(#28));
#30=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A parapet wall',$,#10,#29,$,.PARAPET.);
#31=IFCRELCONTAINEDINSPATIALSTRUCTURE('2ZAHNO3Qn8BxK$rKH6cl4D',$,'Wall Containment',$,(#30),#13);
#32=IFCPROPERTYSINGLEVALUE('LoadBearing',$,IFCBOOLEAN(.F.),$);
#33=IFCPROPERTYSINGLEVALUE('IsExternal',$,IFCBOOLEAN(.F.),$);
#34=IFCPROPERTYSINGLEVALUE('FireRating',$,IFCLABEL('F60'),$);
#35=IFCPROPERTYSET('2grnRSqIL7hh$liSj0W0Ht',$,'Pset_WallCommon',$,(#32,#33,#34));
#36=IFCRELDEFINESBYPROPERTIES('35A0dwNnD8fALlO7A2JM7c',$,'Wall Common Properties',$,(#30),#35); |
You are an IFC (Industry Foundation Classes) and BIM (Building Information Modeling) expert. Provide accurate, detailed, and practical answers to questions about IFC schemas, implementation, and usage in the AEC industry. | Create a complete IFC definition for a retainingwall wall that is 100mm thick, 4000mm high, 4000mm long, made of Masonry, non-load-bearing, internal, with fire rating F30. | #1=IFCPROJECT('3MDa0qu6X5eBFeTDmhEULg',$,'Sample Project',$,$,$,$,$,$);
#2=IFCSIUNIT(*,.LENGTHUNIT.,.MILLI.,.METRE.);
#3=IFCSIUNIT(*,.AREAUNIT.,$,.SQUARE_METRE.);
#4=IFCSIUNIT(*,.VOLUMEUNIT.,$,.CUBIC_METRE.);
#5=IFCUNITASSIGNMENT((#2,#3,#4));
#6=IFCCARTESIANPOINT((0.,0.,0.));
#7=IFCDIRECTION((0.,0.,1.));
#8=IFCDIRECTION((1.,0.,0.));
#9=IFCAXIS2PLACEMENT3D(#6,#7,#8);
#10=IFCLOCALPLACEMENT($,#9);
#11=IFCBUILDING('2aG1gZj7PD2PztLOx2$yoY',$,'Building',$,$,#10,$,$,$,.ELEMENT.,$,$,$);
#12=IFCRELAGGREGATES('1Dd9Lcp$D9OQWkO1$Ykphl',$,'Building Container',$,#1,(#11));
#13=IFCBUILDINGSTOREY('1zS3wBH99AOguUiArbHbX8',$,'Level 1','First Level',$,#10,$,$,$,.ELEMENT.,0.);
#14=IFCRELAGGREGATES('2MH0qYHvH8xgpuPHJrPH8t',$,'Storey Container',$,#11,(#13));
#15=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A retainingwall wall',$,#10,$,$,.RETAININGWALL.);
#16=IFCMATERIAL('Masonry',$,$);
#17=IFCMATERIALLAYER(#16,100,.U.,$,$,$,$);
#18=IFCMATERIALLAYERSET((#17),'Masonry - 100mm',$);
#19=IFCMATERIALLAYERSETUSAGE(#18,.AXIS2.,.NEGATIVE.,50.0.,$);
#20=IFCRELASSOCIATESMATERIAL('3qGDYRqI98RApqr6xHdZKe',$,'Material to Wall',$,(#15),#19);
#21=IFCRECTANGLEPROFILEDEF(.AREA.,'Wall Profile',$,4000.,100.);
#22=IFCCARTESIANPOINT((0.,0.,0.));
#23=IFCDIRECTION((0.,0.,1.));
#24=IFCDIRECTION((1.,0.,0.));
#25=IFCAXIS2PLACEMENT3D(#22,#23,#24);
#26=IFCDIRECTION((0.,0.,1.));
#27=IFCEXTRUDEDAREASOLID(#21,#25,#26,4000.);
#28=IFCSHAPEREPRESENTATION(#1,'Body','SweptSolid',(#27));
#29=IFCPRODUCTDEFINITIONSHAPE($,$,(#28));
#30=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A retainingwall wall',$,#10,#29,$,.RETAININGWALL.);
#31=IFCRELCONTAINEDINSPATIALSTRUCTURE('2ZAHNO3Qn8BxK$rKH6cl4D',$,'Wall Containment',$,(#30),#13);
#32=IFCPROPERTYSINGLEVALUE('LoadBearing',$,IFCBOOLEAN(.F.),$);
#33=IFCPROPERTYSINGLEVALUE('IsExternal',$,IFCBOOLEAN(.F.),$);
#34=IFCPROPERTYSINGLEVALUE('FireRating',$,IFCLABEL('F30'),$);
#35=IFCPROPERTYSET('2grnRSqIL7hh$liSj0W0Ht',$,'Pset_WallCommon',$,(#32,#33,#34));
#36=IFCRELDEFINESBYPROPERTIES('35A0dwNnD8fALlO7A2JM7c',$,'Wall Common Properties',$,(#30),#35); |
You are an IFC (Industry Foundation Classes) and BIM (Building Information Modeling) expert. Provide accurate, detailed, and practical answers to questions about IFC schemas, implementation, and usage in the AEC industry. | Create a complete IFC definition for a plumbingwall wall that is 150mm thick, 3300mm high, 3000mm long, made of Concrete, load-bearing, external, with fire rating F180. | #1=IFCPROJECT('3MDa0qu6X5eBFeTDmhEULg',$,'Sample Project',$,$,$,$,$,$);
#2=IFCSIUNIT(*,.LENGTHUNIT.,.MILLI.,.METRE.);
#3=IFCSIUNIT(*,.AREAUNIT.,$,.SQUARE_METRE.);
#4=IFCSIUNIT(*,.VOLUMEUNIT.,$,.CUBIC_METRE.);
#5=IFCUNITASSIGNMENT((#2,#3,#4));
#6=IFCCARTESIANPOINT((0.,0.,0.));
#7=IFCDIRECTION((0.,0.,1.));
#8=IFCDIRECTION((1.,0.,0.));
#9=IFCAXIS2PLACEMENT3D(#6,#7,#8);
#10=IFCLOCALPLACEMENT($,#9);
#11=IFCBUILDING('2aG1gZj7PD2PztLOx2$yoY',$,'Building',$,$,#10,$,$,$,.ELEMENT.,$,$,$);
#12=IFCRELAGGREGATES('1Dd9Lcp$D9OQWkO1$Ykphl',$,'Building Container',$,#1,(#11));
#13=IFCBUILDINGSTOREY('1zS3wBH99AOguUiArbHbX8',$,'Level 1','First Level',$,#10,$,$,$,.ELEMENT.,0.);
#14=IFCRELAGGREGATES('2MH0qYHvH8xgpuPHJrPH8t',$,'Storey Container',$,#11,(#13));
#15=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A plumbingwall wall',$,#10,$,$,.PLUMBINGWALL.);
#16=IFCMATERIAL('Concrete',$,$);
#17=IFCMATERIALLAYER(#16,150,.U.,$,$,$,$);
#18=IFCMATERIALLAYERSET((#17),'Concrete - 150mm',$);
#19=IFCMATERIALLAYERSETUSAGE(#18,.AXIS2.,.NEGATIVE.,75.0.,$);
#20=IFCRELASSOCIATESMATERIAL('3qGDYRqI98RApqr6xHdZKe',$,'Material to Wall',$,(#15),#19);
#21=IFCRECTANGLEPROFILEDEF(.AREA.,'Wall Profile',$,3000.,150.);
#22=IFCCARTESIANPOINT((0.,0.,0.));
#23=IFCDIRECTION((0.,0.,1.));
#24=IFCDIRECTION((1.,0.,0.));
#25=IFCAXIS2PLACEMENT3D(#22,#23,#24);
#26=IFCDIRECTION((0.,0.,1.));
#27=IFCEXTRUDEDAREASOLID(#21,#25,#26,3300.);
#28=IFCSHAPEREPRESENTATION(#1,'Body','SweptSolid',(#27));
#29=IFCPRODUCTDEFINITIONSHAPE($,$,(#28));
#30=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A plumbingwall wall',$,#10,#29,$,.PLUMBINGWALL.);
#31=IFCRELCONTAINEDINSPATIALSTRUCTURE('2ZAHNO3Qn8BxK$rKH6cl4D',$,'Wall Containment',$,(#30),#13);
#32=IFCPROPERTYSINGLEVALUE('LoadBearing',$,IFCBOOLEAN(.T.),$);
#33=IFCPROPERTYSINGLEVALUE('IsExternal',$,IFCBOOLEAN(.T.),$);
#34=IFCPROPERTYSINGLEVALUE('FireRating',$,IFCLABEL('F180'),$);
#35=IFCPROPERTYSET('2grnRSqIL7hh$liSj0W0Ht',$,'Pset_WallCommon',$,(#32,#33,#34));
#36=IFCRELDEFINESBYPROPERTIES('35A0dwNnD8fALlO7A2JM7c',$,'Wall Common Properties',$,(#30),#35); |
You are an IFC (Industry Foundation Classes) and BIM (Building Information Modeling) expert. Provide accurate, detailed, and practical answers to questions about IFC schemas, implementation, and usage in the AEC industry. | Create a complete IFC definition for a retainingwall wall that is 100mm thick, 3300mm high, 4500mm long, made of Timber, non-load-bearing, internal, with fire rating F90. | #1=IFCPROJECT('3MDa0qu6X5eBFeTDmhEULg',$,'Sample Project',$,$,$,$,$,$);
#2=IFCSIUNIT(*,.LENGTHUNIT.,.MILLI.,.METRE.);
#3=IFCSIUNIT(*,.AREAUNIT.,$,.SQUARE_METRE.);
#4=IFCSIUNIT(*,.VOLUMEUNIT.,$,.CUBIC_METRE.);
#5=IFCUNITASSIGNMENT((#2,#3,#4));
#6=IFCCARTESIANPOINT((0.,0.,0.));
#7=IFCDIRECTION((0.,0.,1.));
#8=IFCDIRECTION((1.,0.,0.));
#9=IFCAXIS2PLACEMENT3D(#6,#7,#8);
#10=IFCLOCALPLACEMENT($,#9);
#11=IFCBUILDING('2aG1gZj7PD2PztLOx2$yoY',$,'Building',$,$,#10,$,$,$,.ELEMENT.,$,$,$);
#12=IFCRELAGGREGATES('1Dd9Lcp$D9OQWkO1$Ykphl',$,'Building Container',$,#1,(#11));
#13=IFCBUILDINGSTOREY('1zS3wBH99AOguUiArbHbX8',$,'Level 1','First Level',$,#10,$,$,$,.ELEMENT.,0.);
#14=IFCRELAGGREGATES('2MH0qYHvH8xgpuPHJrPH8t',$,'Storey Container',$,#11,(#13));
#15=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A retainingwall wall',$,#10,$,$,.RETAININGWALL.);
#16=IFCMATERIAL('Timber',$,$);
#17=IFCMATERIALLAYER(#16,100,.U.,$,$,$,$);
#18=IFCMATERIALLAYERSET((#17),'Timber - 100mm',$);
#19=IFCMATERIALLAYERSETUSAGE(#18,.AXIS2.,.NEGATIVE.,50.0.,$);
#20=IFCRELASSOCIATESMATERIAL('3qGDYRqI98RApqr6xHdZKe',$,'Material to Wall',$,(#15),#19);
#21=IFCRECTANGLEPROFILEDEF(.AREA.,'Wall Profile',$,4500.,100.);
#22=IFCCARTESIANPOINT((0.,0.,0.));
#23=IFCDIRECTION((0.,0.,1.));
#24=IFCDIRECTION((1.,0.,0.));
#25=IFCAXIS2PLACEMENT3D(#22,#23,#24);
#26=IFCDIRECTION((0.,0.,1.));
#27=IFCEXTRUDEDAREASOLID(#21,#25,#26,3300.);
#28=IFCSHAPEREPRESENTATION(#1,'Body','SweptSolid',(#27));
#29=IFCPRODUCTDEFINITIONSHAPE($,$,(#28));
#30=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A retainingwall wall',$,#10,#29,$,.RETAININGWALL.);
#31=IFCRELCONTAINEDINSPATIALSTRUCTURE('2ZAHNO3Qn8BxK$rKH6cl4D',$,'Wall Containment',$,(#30),#13);
#32=IFCPROPERTYSINGLEVALUE('LoadBearing',$,IFCBOOLEAN(.F.),$);
#33=IFCPROPERTYSINGLEVALUE('IsExternal',$,IFCBOOLEAN(.F.),$);
#34=IFCPROPERTYSINGLEVALUE('FireRating',$,IFCLABEL('F90'),$);
#35=IFCPROPERTYSET('2grnRSqIL7hh$liSj0W0Ht',$,'Pset_WallCommon',$,(#32,#33,#34));
#36=IFCRELDEFINESBYPROPERTIES('35A0dwNnD8fALlO7A2JM7c',$,'Wall Common Properties',$,(#30),#35); |
You are an IFC (Industry Foundation Classes) and BIM (Building Information Modeling) expert. Provide accurate, detailed, and practical answers to questions about IFC schemas, implementation, and usage in the AEC industry. | Create a complete IFC definition for a plumbingwall wall that is 250mm thick, 2400mm high, 6000mm long, made of Masonry, load-bearing, external, with fire rating F60. | #1=IFCPROJECT('3MDa0qu6X5eBFeTDmhEULg',$,'Sample Project',$,$,$,$,$,$);
#2=IFCSIUNIT(*,.LENGTHUNIT.,.MILLI.,.METRE.);
#3=IFCSIUNIT(*,.AREAUNIT.,$,.SQUARE_METRE.);
#4=IFCSIUNIT(*,.VOLUMEUNIT.,$,.CUBIC_METRE.);
#5=IFCUNITASSIGNMENT((#2,#3,#4));
#6=IFCCARTESIANPOINT((0.,0.,0.));
#7=IFCDIRECTION((0.,0.,1.));
#8=IFCDIRECTION((1.,0.,0.));
#9=IFCAXIS2PLACEMENT3D(#6,#7,#8);
#10=IFCLOCALPLACEMENT($,#9);
#11=IFCBUILDING('2aG1gZj7PD2PztLOx2$yoY',$,'Building',$,$,#10,$,$,$,.ELEMENT.,$,$,$);
#12=IFCRELAGGREGATES('1Dd9Lcp$D9OQWkO1$Ykphl',$,'Building Container',$,#1,(#11));
#13=IFCBUILDINGSTOREY('1zS3wBH99AOguUiArbHbX8',$,'Level 1','First Level',$,#10,$,$,$,.ELEMENT.,0.);
#14=IFCRELAGGREGATES('2MH0qYHvH8xgpuPHJrPH8t',$,'Storey Container',$,#11,(#13));
#15=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A plumbingwall wall',$,#10,$,$,.PLUMBINGWALL.);
#16=IFCMATERIAL('Masonry',$,$);
#17=IFCMATERIALLAYER(#16,250,.U.,$,$,$,$);
#18=IFCMATERIALLAYERSET((#17),'Masonry - 250mm',$);
#19=IFCMATERIALLAYERSETUSAGE(#18,.AXIS2.,.NEGATIVE.,125.0.,$);
#20=IFCRELASSOCIATESMATERIAL('3qGDYRqI98RApqr6xHdZKe',$,'Material to Wall',$,(#15),#19);
#21=IFCRECTANGLEPROFILEDEF(.AREA.,'Wall Profile',$,6000.,250.);
#22=IFCCARTESIANPOINT((0.,0.,0.));
#23=IFCDIRECTION((0.,0.,1.));
#24=IFCDIRECTION((1.,0.,0.));
#25=IFCAXIS2PLACEMENT3D(#22,#23,#24);
#26=IFCDIRECTION((0.,0.,1.));
#27=IFCEXTRUDEDAREASOLID(#21,#25,#26,2400.);
#28=IFCSHAPEREPRESENTATION(#1,'Body','SweptSolid',(#27));
#29=IFCPRODUCTDEFINITIONSHAPE($,$,(#28));
#30=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A plumbingwall wall',$,#10,#29,$,.PLUMBINGWALL.);
#31=IFCRELCONTAINEDINSPATIALSTRUCTURE('2ZAHNO3Qn8BxK$rKH6cl4D',$,'Wall Containment',$,(#30),#13);
#32=IFCPROPERTYSINGLEVALUE('LoadBearing',$,IFCBOOLEAN(.T.),$);
#33=IFCPROPERTYSINGLEVALUE('IsExternal',$,IFCBOOLEAN(.T.),$);
#34=IFCPROPERTYSINGLEVALUE('FireRating',$,IFCLABEL('F60'),$);
#35=IFCPROPERTYSET('2grnRSqIL7hh$liSj0W0Ht',$,'Pset_WallCommon',$,(#32,#33,#34));
#36=IFCRELDEFINESBYPROPERTIES('35A0dwNnD8fALlO7A2JM7c',$,'Wall Common Properties',$,(#30),#35); |
You are an IFC (Industry Foundation Classes) and BIM (Building Information Modeling) expert. Provide accurate, detailed, and practical answers to questions about IFC schemas, implementation, and usage in the AEC industry. | Create a complete IFC definition for a retainingwall wall that is 380mm thick, 3600mm high, 4500mm long, made of Masonry, load-bearing, external, with fire rating F120. | #1=IFCPROJECT('3MDa0qu6X5eBFeTDmhEULg',$,'Sample Project',$,$,$,$,$,$);
#2=IFCSIUNIT(*,.LENGTHUNIT.,.MILLI.,.METRE.);
#3=IFCSIUNIT(*,.AREAUNIT.,$,.SQUARE_METRE.);
#4=IFCSIUNIT(*,.VOLUMEUNIT.,$,.CUBIC_METRE.);
#5=IFCUNITASSIGNMENT((#2,#3,#4));
#6=IFCCARTESIANPOINT((0.,0.,0.));
#7=IFCDIRECTION((0.,0.,1.));
#8=IFCDIRECTION((1.,0.,0.));
#9=IFCAXIS2PLACEMENT3D(#6,#7,#8);
#10=IFCLOCALPLACEMENT($,#9);
#11=IFCBUILDING('2aG1gZj7PD2PztLOx2$yoY',$,'Building',$,$,#10,$,$,$,.ELEMENT.,$,$,$);
#12=IFCRELAGGREGATES('1Dd9Lcp$D9OQWkO1$Ykphl',$,'Building Container',$,#1,(#11));
#13=IFCBUILDINGSTOREY('1zS3wBH99AOguUiArbHbX8',$,'Level 1','First Level',$,#10,$,$,$,.ELEMENT.,0.);
#14=IFCRELAGGREGATES('2MH0qYHvH8xgpuPHJrPH8t',$,'Storey Container',$,#11,(#13));
#15=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A retainingwall wall',$,#10,$,$,.RETAININGWALL.);
#16=IFCMATERIAL('Masonry',$,$);
#17=IFCMATERIALLAYER(#16,380,.U.,$,$,$,$);
#18=IFCMATERIALLAYERSET((#17),'Masonry - 380mm',$);
#19=IFCMATERIALLAYERSETUSAGE(#18,.AXIS2.,.NEGATIVE.,190.0.,$);
#20=IFCRELASSOCIATESMATERIAL('3qGDYRqI98RApqr6xHdZKe',$,'Material to Wall',$,(#15),#19);
#21=IFCRECTANGLEPROFILEDEF(.AREA.,'Wall Profile',$,4500.,380.);
#22=IFCCARTESIANPOINT((0.,0.,0.));
#23=IFCDIRECTION((0.,0.,1.));
#24=IFCDIRECTION((1.,0.,0.));
#25=IFCAXIS2PLACEMENT3D(#22,#23,#24);
#26=IFCDIRECTION((0.,0.,1.));
#27=IFCEXTRUDEDAREASOLID(#21,#25,#26,3600.);
#28=IFCSHAPEREPRESENTATION(#1,'Body','SweptSolid',(#27));
#29=IFCPRODUCTDEFINITIONSHAPE($,$,(#28));
#30=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A retainingwall wall',$,#10,#29,$,.RETAININGWALL.);
#31=IFCRELCONTAINEDINSPATIALSTRUCTURE('2ZAHNO3Qn8BxK$rKH6cl4D',$,'Wall Containment',$,(#30),#13);
#32=IFCPROPERTYSINGLEVALUE('LoadBearing',$,IFCBOOLEAN(.T.),$);
#33=IFCPROPERTYSINGLEVALUE('IsExternal',$,IFCBOOLEAN(.T.),$);
#34=IFCPROPERTYSINGLEVALUE('FireRating',$,IFCLABEL('F120'),$);
#35=IFCPROPERTYSET('2grnRSqIL7hh$liSj0W0Ht',$,'Pset_WallCommon',$,(#32,#33,#34));
#36=IFCRELDEFINESBYPROPERTIES('35A0dwNnD8fALlO7A2JM7c',$,'Wall Common Properties',$,(#30),#35); |
You are an IFC (Industry Foundation Classes) and BIM (Building Information Modeling) expert. Provide accurate, detailed, and practical answers to questions about IFC schemas, implementation, and usage in the AEC industry. | Create a complete IFC definition for a shear wall that is 125mm thick, 4000mm high, 4000mm long, made of Timber, load-bearing, external, with fire rating F60. | #1=IFCPROJECT('3MDa0qu6X5eBFeTDmhEULg',$,'Sample Project',$,$,$,$,$,$);
#2=IFCSIUNIT(*,.LENGTHUNIT.,.MILLI.,.METRE.);
#3=IFCSIUNIT(*,.AREAUNIT.,$,.SQUARE_METRE.);
#4=IFCSIUNIT(*,.VOLUMEUNIT.,$,.CUBIC_METRE.);
#5=IFCUNITASSIGNMENT((#2,#3,#4));
#6=IFCCARTESIANPOINT((0.,0.,0.));
#7=IFCDIRECTION((0.,0.,1.));
#8=IFCDIRECTION((1.,0.,0.));
#9=IFCAXIS2PLACEMENT3D(#6,#7,#8);
#10=IFCLOCALPLACEMENT($,#9);
#11=IFCBUILDING('2aG1gZj7PD2PztLOx2$yoY',$,'Building',$,$,#10,$,$,$,.ELEMENT.,$,$,$);
#12=IFCRELAGGREGATES('1Dd9Lcp$D9OQWkO1$Ykphl',$,'Building Container',$,#1,(#11));
#13=IFCBUILDINGSTOREY('1zS3wBH99AOguUiArbHbX8',$,'Level 1','First Level',$,#10,$,$,$,.ELEMENT.,0.);
#14=IFCRELAGGREGATES('2MH0qYHvH8xgpuPHJrPH8t',$,'Storey Container',$,#11,(#13));
#15=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A shear wall',$,#10,$,$,.SHEAR.);
#16=IFCMATERIAL('Timber',$,$);
#17=IFCMATERIALLAYER(#16,125,.U.,$,$,$,$);
#18=IFCMATERIALLAYERSET((#17),'Timber - 125mm',$);
#19=IFCMATERIALLAYERSETUSAGE(#18,.AXIS2.,.NEGATIVE.,62.5.,$);
#20=IFCRELASSOCIATESMATERIAL('3qGDYRqI98RApqr6xHdZKe',$,'Material to Wall',$,(#15),#19);
#21=IFCRECTANGLEPROFILEDEF(.AREA.,'Wall Profile',$,4000.,125.);
#22=IFCCARTESIANPOINT((0.,0.,0.));
#23=IFCDIRECTION((0.,0.,1.));
#24=IFCDIRECTION((1.,0.,0.));
#25=IFCAXIS2PLACEMENT3D(#22,#23,#24);
#26=IFCDIRECTION((0.,0.,1.));
#27=IFCEXTRUDEDAREASOLID(#21,#25,#26,4000.);
#28=IFCSHAPEREPRESENTATION(#1,'Body','SweptSolid',(#27));
#29=IFCPRODUCTDEFINITIONSHAPE($,$,(#28));
#30=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A shear wall',$,#10,#29,$,.SHEAR.);
#31=IFCRELCONTAINEDINSPATIALSTRUCTURE('2ZAHNO3Qn8BxK$rKH6cl4D',$,'Wall Containment',$,(#30),#13);
#32=IFCPROPERTYSINGLEVALUE('LoadBearing',$,IFCBOOLEAN(.T.),$);
#33=IFCPROPERTYSINGLEVALUE('IsExternal',$,IFCBOOLEAN(.T.),$);
#34=IFCPROPERTYSINGLEVALUE('FireRating',$,IFCLABEL('F60'),$);
#35=IFCPROPERTYSET('2grnRSqIL7hh$liSj0W0Ht',$,'Pset_WallCommon',$,(#32,#33,#34));
#36=IFCRELDEFINESBYPROPERTIES('35A0dwNnD8fALlO7A2JM7c',$,'Wall Common Properties',$,(#30),#35); |
You are an IFC (Industry Foundation Classes) and BIM (Building Information Modeling) expert. Provide accurate, detailed, and practical answers to questions about IFC schemas, implementation, and usage in the AEC industry. | Create a complete IFC definition for a solidwall wall that is 300mm thick, 3300mm high, 3600mm long, made of Concrete, load-bearing, external, with fire rating F90. | #1=IFCPROJECT('3MDa0qu6X5eBFeTDmhEULg',$,'Sample Project',$,$,$,$,$,$);
#2=IFCSIUNIT(*,.LENGTHUNIT.,.MILLI.,.METRE.);
#3=IFCSIUNIT(*,.AREAUNIT.,$,.SQUARE_METRE.);
#4=IFCSIUNIT(*,.VOLUMEUNIT.,$,.CUBIC_METRE.);
#5=IFCUNITASSIGNMENT((#2,#3,#4));
#6=IFCCARTESIANPOINT((0.,0.,0.));
#7=IFCDIRECTION((0.,0.,1.));
#8=IFCDIRECTION((1.,0.,0.));
#9=IFCAXIS2PLACEMENT3D(#6,#7,#8);
#10=IFCLOCALPLACEMENT($,#9);
#11=IFCBUILDING('2aG1gZj7PD2PztLOx2$yoY',$,'Building',$,$,#10,$,$,$,.ELEMENT.,$,$,$);
#12=IFCRELAGGREGATES('1Dd9Lcp$D9OQWkO1$Ykphl',$,'Building Container',$,#1,(#11));
#13=IFCBUILDINGSTOREY('1zS3wBH99AOguUiArbHbX8',$,'Level 1','First Level',$,#10,$,$,$,.ELEMENT.,0.);
#14=IFCRELAGGREGATES('2MH0qYHvH8xgpuPHJrPH8t',$,'Storey Container',$,#11,(#13));
#15=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A solidwall wall',$,#10,$,$,.SOLIDWALL.);
#16=IFCMATERIAL('Concrete',$,$);
#17=IFCMATERIALLAYER(#16,300,.U.,$,$,$,$);
#18=IFCMATERIALLAYERSET((#17),'Concrete - 300mm',$);
#19=IFCMATERIALLAYERSETUSAGE(#18,.AXIS2.,.NEGATIVE.,150.0.,$);
#20=IFCRELASSOCIATESMATERIAL('3qGDYRqI98RApqr6xHdZKe',$,'Material to Wall',$,(#15),#19);
#21=IFCRECTANGLEPROFILEDEF(.AREA.,'Wall Profile',$,3600.,300.);
#22=IFCCARTESIANPOINT((0.,0.,0.));
#23=IFCDIRECTION((0.,0.,1.));
#24=IFCDIRECTION((1.,0.,0.));
#25=IFCAXIS2PLACEMENT3D(#22,#23,#24);
#26=IFCDIRECTION((0.,0.,1.));
#27=IFCEXTRUDEDAREASOLID(#21,#25,#26,3300.);
#28=IFCSHAPEREPRESENTATION(#1,'Body','SweptSolid',(#27));
#29=IFCPRODUCTDEFINITIONSHAPE($,$,(#28));
#30=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A solidwall wall',$,#10,#29,$,.SOLIDWALL.);
#31=IFCRELCONTAINEDINSPATIALSTRUCTURE('2ZAHNO3Qn8BxK$rKH6cl4D',$,'Wall Containment',$,(#30),#13);
#32=IFCPROPERTYSINGLEVALUE('LoadBearing',$,IFCBOOLEAN(.T.),$);
#33=IFCPROPERTYSINGLEVALUE('IsExternal',$,IFCBOOLEAN(.T.),$);
#34=IFCPROPERTYSINGLEVALUE('FireRating',$,IFCLABEL('F90'),$);
#35=IFCPROPERTYSET('2grnRSqIL7hh$liSj0W0Ht',$,'Pset_WallCommon',$,(#32,#33,#34));
#36=IFCRELDEFINESBYPROPERTIES('35A0dwNnD8fALlO7A2JM7c',$,'Wall Common Properties',$,(#30),#35); |
You are an IFC (Industry Foundation Classes) and BIM (Building Information Modeling) expert. Provide accurate, detailed, and practical answers to questions about IFC schemas, implementation, and usage in the AEC industry. | Create a complete IFC definition for a parapet wall that is 125mm thick, 4000mm high, 9000mm long, made of Timber, non-load-bearing, external, with fire rating F90. | #1=IFCPROJECT('3MDa0qu6X5eBFeTDmhEULg',$,'Sample Project',$,$,$,$,$,$);
#2=IFCSIUNIT(*,.LENGTHUNIT.,.MILLI.,.METRE.);
#3=IFCSIUNIT(*,.AREAUNIT.,$,.SQUARE_METRE.);
#4=IFCSIUNIT(*,.VOLUMEUNIT.,$,.CUBIC_METRE.);
#5=IFCUNITASSIGNMENT((#2,#3,#4));
#6=IFCCARTESIANPOINT((0.,0.,0.));
#7=IFCDIRECTION((0.,0.,1.));
#8=IFCDIRECTION((1.,0.,0.));
#9=IFCAXIS2PLACEMENT3D(#6,#7,#8);
#10=IFCLOCALPLACEMENT($,#9);
#11=IFCBUILDING('2aG1gZj7PD2PztLOx2$yoY',$,'Building',$,$,#10,$,$,$,.ELEMENT.,$,$,$);
#12=IFCRELAGGREGATES('1Dd9Lcp$D9OQWkO1$Ykphl',$,'Building Container',$,#1,(#11));
#13=IFCBUILDINGSTOREY('1zS3wBH99AOguUiArbHbX8',$,'Level 1','First Level',$,#10,$,$,$,.ELEMENT.,0.);
#14=IFCRELAGGREGATES('2MH0qYHvH8xgpuPHJrPH8t',$,'Storey Container',$,#11,(#13));
#15=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A parapet wall',$,#10,$,$,.PARAPET.);
#16=IFCMATERIAL('Timber',$,$);
#17=IFCMATERIALLAYER(#16,125,.U.,$,$,$,$);
#18=IFCMATERIALLAYERSET((#17),'Timber - 125mm',$);
#19=IFCMATERIALLAYERSETUSAGE(#18,.AXIS2.,.NEGATIVE.,62.5.,$);
#20=IFCRELASSOCIATESMATERIAL('3qGDYRqI98RApqr6xHdZKe',$,'Material to Wall',$,(#15),#19);
#21=IFCRECTANGLEPROFILEDEF(.AREA.,'Wall Profile',$,9000.,125.);
#22=IFCCARTESIANPOINT((0.,0.,0.));
#23=IFCDIRECTION((0.,0.,1.));
#24=IFCDIRECTION((1.,0.,0.));
#25=IFCAXIS2PLACEMENT3D(#22,#23,#24);
#26=IFCDIRECTION((0.,0.,1.));
#27=IFCEXTRUDEDAREASOLID(#21,#25,#26,4000.);
#28=IFCSHAPEREPRESENTATION(#1,'Body','SweptSolid',(#27));
#29=IFCPRODUCTDEFINITIONSHAPE($,$,(#28));
#30=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A parapet wall',$,#10,#29,$,.PARAPET.);
#31=IFCRELCONTAINEDINSPATIALSTRUCTURE('2ZAHNO3Qn8BxK$rKH6cl4D',$,'Wall Containment',$,(#30),#13);
#32=IFCPROPERTYSINGLEVALUE('LoadBearing',$,IFCBOOLEAN(.F.),$);
#33=IFCPROPERTYSINGLEVALUE('IsExternal',$,IFCBOOLEAN(.T.),$);
#34=IFCPROPERTYSINGLEVALUE('FireRating',$,IFCLABEL('F90'),$);
#35=IFCPROPERTYSET('2grnRSqIL7hh$liSj0W0Ht',$,'Pset_WallCommon',$,(#32,#33,#34));
#36=IFCRELDEFINESBYPROPERTIES('35A0dwNnD8fALlO7A2JM7c',$,'Wall Common Properties',$,(#30),#35); |
You are an IFC (Industry Foundation Classes) and BIM (Building Information Modeling) expert. Provide accurate, detailed, and practical answers to questions about IFC schemas, implementation, and usage in the AEC industry. | Create a complete IFC definition for a elementedwall wall that is 300mm thick, 3000mm high, 4000mm long, made of Concrete, load-bearing, external, with fire rating F240. | #1=IFCPROJECT('3MDa0qu6X5eBFeTDmhEULg',$,'Sample Project',$,$,$,$,$,$);
#2=IFCSIUNIT(*,.LENGTHUNIT.,.MILLI.,.METRE.);
#3=IFCSIUNIT(*,.AREAUNIT.,$,.SQUARE_METRE.);
#4=IFCSIUNIT(*,.VOLUMEUNIT.,$,.CUBIC_METRE.);
#5=IFCUNITASSIGNMENT((#2,#3,#4));
#6=IFCCARTESIANPOINT((0.,0.,0.));
#7=IFCDIRECTION((0.,0.,1.));
#8=IFCDIRECTION((1.,0.,0.));
#9=IFCAXIS2PLACEMENT3D(#6,#7,#8);
#10=IFCLOCALPLACEMENT($,#9);
#11=IFCBUILDING('2aG1gZj7PD2PztLOx2$yoY',$,'Building',$,$,#10,$,$,$,.ELEMENT.,$,$,$);
#12=IFCRELAGGREGATES('1Dd9Lcp$D9OQWkO1$Ykphl',$,'Building Container',$,#1,(#11));
#13=IFCBUILDINGSTOREY('1zS3wBH99AOguUiArbHbX8',$,'Level 1','First Level',$,#10,$,$,$,.ELEMENT.,0.);
#14=IFCRELAGGREGATES('2MH0qYHvH8xgpuPHJrPH8t',$,'Storey Container',$,#11,(#13));
#15=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A elementedwall wall',$,#10,$,$,.ELEMENTEDWALL.);
#16=IFCMATERIAL('Concrete',$,$);
#17=IFCMATERIALLAYER(#16,300,.U.,$,$,$,$);
#18=IFCMATERIALLAYERSET((#17),'Concrete - 300mm',$);
#19=IFCMATERIALLAYERSETUSAGE(#18,.AXIS2.,.NEGATIVE.,150.0.,$);
#20=IFCRELASSOCIATESMATERIAL('3qGDYRqI98RApqr6xHdZKe',$,'Material to Wall',$,(#15),#19);
#21=IFCRECTANGLEPROFILEDEF(.AREA.,'Wall Profile',$,4000.,300.);
#22=IFCCARTESIANPOINT((0.,0.,0.));
#23=IFCDIRECTION((0.,0.,1.));
#24=IFCDIRECTION((1.,0.,0.));
#25=IFCAXIS2PLACEMENT3D(#22,#23,#24);
#26=IFCDIRECTION((0.,0.,1.));
#27=IFCEXTRUDEDAREASOLID(#21,#25,#26,3000.);
#28=IFCSHAPEREPRESENTATION(#1,'Body','SweptSolid',(#27));
#29=IFCPRODUCTDEFINITIONSHAPE($,$,(#28));
#30=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A elementedwall wall',$,#10,#29,$,.ELEMENTEDWALL.);
#31=IFCRELCONTAINEDINSPATIALSTRUCTURE('2ZAHNO3Qn8BxK$rKH6cl4D',$,'Wall Containment',$,(#30),#13);
#32=IFCPROPERTYSINGLEVALUE('LoadBearing',$,IFCBOOLEAN(.T.),$);
#33=IFCPROPERTYSINGLEVALUE('IsExternal',$,IFCBOOLEAN(.T.),$);
#34=IFCPROPERTYSINGLEVALUE('FireRating',$,IFCLABEL('F240'),$);
#35=IFCPROPERTYSET('2grnRSqIL7hh$liSj0W0Ht',$,'Pset_WallCommon',$,(#32,#33,#34));
#36=IFCRELDEFINESBYPROPERTIES('35A0dwNnD8fALlO7A2JM7c',$,'Wall Common Properties',$,(#30),#35); |
You are an IFC (Industry Foundation Classes) and BIM (Building Information Modeling) expert. Provide accurate, detailed, and practical answers to questions about IFC schemas, implementation, and usage in the AEC industry. | Create a complete IFC definition for a movable wall that is 150mm thick, 2400mm high, 7500mm long, made of Concrete, load-bearing, internal, with fire rating F60. | #1=IFCPROJECT('3MDa0qu6X5eBFeTDmhEULg',$,'Sample Project',$,$,$,$,$,$);
#2=IFCSIUNIT(*,.LENGTHUNIT.,.MILLI.,.METRE.);
#3=IFCSIUNIT(*,.AREAUNIT.,$,.SQUARE_METRE.);
#4=IFCSIUNIT(*,.VOLUMEUNIT.,$,.CUBIC_METRE.);
#5=IFCUNITASSIGNMENT((#2,#3,#4));
#6=IFCCARTESIANPOINT((0.,0.,0.));
#7=IFCDIRECTION((0.,0.,1.));
#8=IFCDIRECTION((1.,0.,0.));
#9=IFCAXIS2PLACEMENT3D(#6,#7,#8);
#10=IFCLOCALPLACEMENT($,#9);
#11=IFCBUILDING('2aG1gZj7PD2PztLOx2$yoY',$,'Building',$,$,#10,$,$,$,.ELEMENT.,$,$,$);
#12=IFCRELAGGREGATES('1Dd9Lcp$D9OQWkO1$Ykphl',$,'Building Container',$,#1,(#11));
#13=IFCBUILDINGSTOREY('1zS3wBH99AOguUiArbHbX8',$,'Level 1','First Level',$,#10,$,$,$,.ELEMENT.,0.);
#14=IFCRELAGGREGATES('2MH0qYHvH8xgpuPHJrPH8t',$,'Storey Container',$,#11,(#13));
#15=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A movable wall',$,#10,$,$,.MOVABLE.);
#16=IFCMATERIAL('Concrete',$,$);
#17=IFCMATERIALLAYER(#16,150,.U.,$,$,$,$);
#18=IFCMATERIALLAYERSET((#17),'Concrete - 150mm',$);
#19=IFCMATERIALLAYERSETUSAGE(#18,.AXIS2.,.NEGATIVE.,75.0.,$);
#20=IFCRELASSOCIATESMATERIAL('3qGDYRqI98RApqr6xHdZKe',$,'Material to Wall',$,(#15),#19);
#21=IFCRECTANGLEPROFILEDEF(.AREA.,'Wall Profile',$,7500.,150.);
#22=IFCCARTESIANPOINT((0.,0.,0.));
#23=IFCDIRECTION((0.,0.,1.));
#24=IFCDIRECTION((1.,0.,0.));
#25=IFCAXIS2PLACEMENT3D(#22,#23,#24);
#26=IFCDIRECTION((0.,0.,1.));
#27=IFCEXTRUDEDAREASOLID(#21,#25,#26,2400.);
#28=IFCSHAPEREPRESENTATION(#1,'Body','SweptSolid',(#27));
#29=IFCPRODUCTDEFINITIONSHAPE($,$,(#28));
#30=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A movable wall',$,#10,#29,$,.MOVABLE.);
#31=IFCRELCONTAINEDINSPATIALSTRUCTURE('2ZAHNO3Qn8BxK$rKH6cl4D',$,'Wall Containment',$,(#30),#13);
#32=IFCPROPERTYSINGLEVALUE('LoadBearing',$,IFCBOOLEAN(.T.),$);
#33=IFCPROPERTYSINGLEVALUE('IsExternal',$,IFCBOOLEAN(.F.),$);
#34=IFCPROPERTYSINGLEVALUE('FireRating',$,IFCLABEL('F60'),$);
#35=IFCPROPERTYSET('2grnRSqIL7hh$liSj0W0Ht',$,'Pset_WallCommon',$,(#32,#33,#34));
#36=IFCRELDEFINESBYPROPERTIES('35A0dwNnD8fALlO7A2JM7c',$,'Wall Common Properties',$,(#30),#35); |
You are an IFC (Industry Foundation Classes) and BIM (Building Information Modeling) expert. Provide accurate, detailed, and practical answers to questions about IFC schemas, implementation, and usage in the AEC industry. | Create a complete IFC definition for a shear wall that is 380mm thick, 2400mm high, 6000mm long, made of Masonry, load-bearing, internal, with fire rating F90. | #1=IFCPROJECT('3MDa0qu6X5eBFeTDmhEULg',$,'Sample Project',$,$,$,$,$,$);
#2=IFCSIUNIT(*,.LENGTHUNIT.,.MILLI.,.METRE.);
#3=IFCSIUNIT(*,.AREAUNIT.,$,.SQUARE_METRE.);
#4=IFCSIUNIT(*,.VOLUMEUNIT.,$,.CUBIC_METRE.);
#5=IFCUNITASSIGNMENT((#2,#3,#4));
#6=IFCCARTESIANPOINT((0.,0.,0.));
#7=IFCDIRECTION((0.,0.,1.));
#8=IFCDIRECTION((1.,0.,0.));
#9=IFCAXIS2PLACEMENT3D(#6,#7,#8);
#10=IFCLOCALPLACEMENT($,#9);
#11=IFCBUILDING('2aG1gZj7PD2PztLOx2$yoY',$,'Building',$,$,#10,$,$,$,.ELEMENT.,$,$,$);
#12=IFCRELAGGREGATES('1Dd9Lcp$D9OQWkO1$Ykphl',$,'Building Container',$,#1,(#11));
#13=IFCBUILDINGSTOREY('1zS3wBH99AOguUiArbHbX8',$,'Level 1','First Level',$,#10,$,$,$,.ELEMENT.,0.);
#14=IFCRELAGGREGATES('2MH0qYHvH8xgpuPHJrPH8t',$,'Storey Container',$,#11,(#13));
#15=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A shear wall',$,#10,$,$,.SHEAR.);
#16=IFCMATERIAL('Masonry',$,$);
#17=IFCMATERIALLAYER(#16,380,.U.,$,$,$,$);
#18=IFCMATERIALLAYERSET((#17),'Masonry - 380mm',$);
#19=IFCMATERIALLAYERSETUSAGE(#18,.AXIS2.,.NEGATIVE.,190.0.,$);
#20=IFCRELASSOCIATESMATERIAL('3qGDYRqI98RApqr6xHdZKe',$,'Material to Wall',$,(#15),#19);
#21=IFCRECTANGLEPROFILEDEF(.AREA.,'Wall Profile',$,6000.,380.);
#22=IFCCARTESIANPOINT((0.,0.,0.));
#23=IFCDIRECTION((0.,0.,1.));
#24=IFCDIRECTION((1.,0.,0.));
#25=IFCAXIS2PLACEMENT3D(#22,#23,#24);
#26=IFCDIRECTION((0.,0.,1.));
#27=IFCEXTRUDEDAREASOLID(#21,#25,#26,2400.);
#28=IFCSHAPEREPRESENTATION(#1,'Body','SweptSolid',(#27));
#29=IFCPRODUCTDEFINITIONSHAPE($,$,(#28));
#30=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A shear wall',$,#10,#29,$,.SHEAR.);
#31=IFCRELCONTAINEDINSPATIALSTRUCTURE('2ZAHNO3Qn8BxK$rKH6cl4D',$,'Wall Containment',$,(#30),#13);
#32=IFCPROPERTYSINGLEVALUE('LoadBearing',$,IFCBOOLEAN(.T.),$);
#33=IFCPROPERTYSINGLEVALUE('IsExternal',$,IFCBOOLEAN(.F.),$);
#34=IFCPROPERTYSINGLEVALUE('FireRating',$,IFCLABEL('F90'),$);
#35=IFCPROPERTYSET('2grnRSqIL7hh$liSj0W0Ht',$,'Pset_WallCommon',$,(#32,#33,#34));
#36=IFCRELDEFINESBYPROPERTIES('35A0dwNnD8fALlO7A2JM7c',$,'Wall Common Properties',$,(#30),#35); |
You are an IFC (Industry Foundation Classes) and BIM (Building Information Modeling) expert. Provide accurate, detailed, and practical answers to questions about IFC schemas, implementation, and usage in the AEC industry. | Create a complete IFC definition for a plumbingwall wall that is 100mm thick, 3000mm high, 4000mm long, made of Masonry, non-load-bearing, internal, with fire rating F30. | #1=IFCPROJECT('3MDa0qu6X5eBFeTDmhEULg',$,'Sample Project',$,$,$,$,$,$);
#2=IFCSIUNIT(*,.LENGTHUNIT.,.MILLI.,.METRE.);
#3=IFCSIUNIT(*,.AREAUNIT.,$,.SQUARE_METRE.);
#4=IFCSIUNIT(*,.VOLUMEUNIT.,$,.CUBIC_METRE.);
#5=IFCUNITASSIGNMENT((#2,#3,#4));
#6=IFCCARTESIANPOINT((0.,0.,0.));
#7=IFCDIRECTION((0.,0.,1.));
#8=IFCDIRECTION((1.,0.,0.));
#9=IFCAXIS2PLACEMENT3D(#6,#7,#8);
#10=IFCLOCALPLACEMENT($,#9);
#11=IFCBUILDING('2aG1gZj7PD2PztLOx2$yoY',$,'Building',$,$,#10,$,$,$,.ELEMENT.,$,$,$);
#12=IFCRELAGGREGATES('1Dd9Lcp$D9OQWkO1$Ykphl',$,'Building Container',$,#1,(#11));
#13=IFCBUILDINGSTOREY('1zS3wBH99AOguUiArbHbX8',$,'Level 1','First Level',$,#10,$,$,$,.ELEMENT.,0.);
#14=IFCRELAGGREGATES('2MH0qYHvH8xgpuPHJrPH8t',$,'Storey Container',$,#11,(#13));
#15=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A plumbingwall wall',$,#10,$,$,.PLUMBINGWALL.);
#16=IFCMATERIAL('Masonry',$,$);
#17=IFCMATERIALLAYER(#16,100,.U.,$,$,$,$);
#18=IFCMATERIALLAYERSET((#17),'Masonry - 100mm',$);
#19=IFCMATERIALLAYERSETUSAGE(#18,.AXIS2.,.NEGATIVE.,50.0.,$);
#20=IFCRELASSOCIATESMATERIAL('3qGDYRqI98RApqr6xHdZKe',$,'Material to Wall',$,(#15),#19);
#21=IFCRECTANGLEPROFILEDEF(.AREA.,'Wall Profile',$,4000.,100.);
#22=IFCCARTESIANPOINT((0.,0.,0.));
#23=IFCDIRECTION((0.,0.,1.));
#24=IFCDIRECTION((1.,0.,0.));
#25=IFCAXIS2PLACEMENT3D(#22,#23,#24);
#26=IFCDIRECTION((0.,0.,1.));
#27=IFCEXTRUDEDAREASOLID(#21,#25,#26,3000.);
#28=IFCSHAPEREPRESENTATION(#1,'Body','SweptSolid',(#27));
#29=IFCPRODUCTDEFINITIONSHAPE($,$,(#28));
#30=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A plumbingwall wall',$,#10,#29,$,.PLUMBINGWALL.);
#31=IFCRELCONTAINEDINSPATIALSTRUCTURE('2ZAHNO3Qn8BxK$rKH6cl4D',$,'Wall Containment',$,(#30),#13);
#32=IFCPROPERTYSINGLEVALUE('LoadBearing',$,IFCBOOLEAN(.F.),$);
#33=IFCPROPERTYSINGLEVALUE('IsExternal',$,IFCBOOLEAN(.F.),$);
#34=IFCPROPERTYSINGLEVALUE('FireRating',$,IFCLABEL('F30'),$);
#35=IFCPROPERTYSET('2grnRSqIL7hh$liSj0W0Ht',$,'Pset_WallCommon',$,(#32,#33,#34));
#36=IFCRELDEFINESBYPROPERTIES('35A0dwNnD8fALlO7A2JM7c',$,'Wall Common Properties',$,(#30),#35); |
You are an IFC (Industry Foundation Classes) and BIM (Building Information Modeling) expert. Provide accurate, detailed, and practical answers to questions about IFC schemas, implementation, and usage in the AEC industry. | Create a complete IFC definition for a partitioning wall that is 100mm thick, 3600mm high, 6000mm long, made of Concrete, non-load-bearing, external, with fire rating F120. | #1=IFCPROJECT('3MDa0qu6X5eBFeTDmhEULg',$,'Sample Project',$,$,$,$,$,$);
#2=IFCSIUNIT(*,.LENGTHUNIT.,.MILLI.,.METRE.);
#3=IFCSIUNIT(*,.AREAUNIT.,$,.SQUARE_METRE.);
#4=IFCSIUNIT(*,.VOLUMEUNIT.,$,.CUBIC_METRE.);
#5=IFCUNITASSIGNMENT((#2,#3,#4));
#6=IFCCARTESIANPOINT((0.,0.,0.));
#7=IFCDIRECTION((0.,0.,1.));
#8=IFCDIRECTION((1.,0.,0.));
#9=IFCAXIS2PLACEMENT3D(#6,#7,#8);
#10=IFCLOCALPLACEMENT($,#9);
#11=IFCBUILDING('2aG1gZj7PD2PztLOx2$yoY',$,'Building',$,$,#10,$,$,$,.ELEMENT.,$,$,$);
#12=IFCRELAGGREGATES('1Dd9Lcp$D9OQWkO1$Ykphl',$,'Building Container',$,#1,(#11));
#13=IFCBUILDINGSTOREY('1zS3wBH99AOguUiArbHbX8',$,'Level 1','First Level',$,#10,$,$,$,.ELEMENT.,0.);
#14=IFCRELAGGREGATES('2MH0qYHvH8xgpuPHJrPH8t',$,'Storey Container',$,#11,(#13));
#15=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A partitioning wall',$,#10,$,$,.PARTITIONING.);
#16=IFCMATERIAL('Concrete',$,$);
#17=IFCMATERIALLAYER(#16,100,.U.,$,$,$,$);
#18=IFCMATERIALLAYERSET((#17),'Concrete - 100mm',$);
#19=IFCMATERIALLAYERSETUSAGE(#18,.AXIS2.,.NEGATIVE.,50.0.,$);
#20=IFCRELASSOCIATESMATERIAL('3qGDYRqI98RApqr6xHdZKe',$,'Material to Wall',$,(#15),#19);
#21=IFCRECTANGLEPROFILEDEF(.AREA.,'Wall Profile',$,6000.,100.);
#22=IFCCARTESIANPOINT((0.,0.,0.));
#23=IFCDIRECTION((0.,0.,1.));
#24=IFCDIRECTION((1.,0.,0.));
#25=IFCAXIS2PLACEMENT3D(#22,#23,#24);
#26=IFCDIRECTION((0.,0.,1.));
#27=IFCEXTRUDEDAREASOLID(#21,#25,#26,3600.);
#28=IFCSHAPEREPRESENTATION(#1,'Body','SweptSolid',(#27));
#29=IFCPRODUCTDEFINITIONSHAPE($,$,(#28));
#30=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A partitioning wall',$,#10,#29,$,.PARTITIONING.);
#31=IFCRELCONTAINEDINSPATIALSTRUCTURE('2ZAHNO3Qn8BxK$rKH6cl4D',$,'Wall Containment',$,(#30),#13);
#32=IFCPROPERTYSINGLEVALUE('LoadBearing',$,IFCBOOLEAN(.F.),$);
#33=IFCPROPERTYSINGLEVALUE('IsExternal',$,IFCBOOLEAN(.T.),$);
#34=IFCPROPERTYSINGLEVALUE('FireRating',$,IFCLABEL('F120'),$);
#35=IFCPROPERTYSET('2grnRSqIL7hh$liSj0W0Ht',$,'Pset_WallCommon',$,(#32,#33,#34));
#36=IFCRELDEFINESBYPROPERTIES('35A0dwNnD8fALlO7A2JM7c',$,'Wall Common Properties',$,(#30),#35); |
You are an IFC (Industry Foundation Classes) and BIM (Building Information Modeling) expert. Provide accurate, detailed, and practical answers to questions about IFC schemas, implementation, and usage in the AEC industry. | Create a complete IFC definition for a movable wall that is 200mm thick, 4000mm high, 5000mm long, made of Timber, load-bearing, external, with fire rating F120. | #1=IFCPROJECT('3MDa0qu6X5eBFeTDmhEULg',$,'Sample Project',$,$,$,$,$,$);
#2=IFCSIUNIT(*,.LENGTHUNIT.,.MILLI.,.METRE.);
#3=IFCSIUNIT(*,.AREAUNIT.,$,.SQUARE_METRE.);
#4=IFCSIUNIT(*,.VOLUMEUNIT.,$,.CUBIC_METRE.);
#5=IFCUNITASSIGNMENT((#2,#3,#4));
#6=IFCCARTESIANPOINT((0.,0.,0.));
#7=IFCDIRECTION((0.,0.,1.));
#8=IFCDIRECTION((1.,0.,0.));
#9=IFCAXIS2PLACEMENT3D(#6,#7,#8);
#10=IFCLOCALPLACEMENT($,#9);
#11=IFCBUILDING('2aG1gZj7PD2PztLOx2$yoY',$,'Building',$,$,#10,$,$,$,.ELEMENT.,$,$,$);
#12=IFCRELAGGREGATES('1Dd9Lcp$D9OQWkO1$Ykphl',$,'Building Container',$,#1,(#11));
#13=IFCBUILDINGSTOREY('1zS3wBH99AOguUiArbHbX8',$,'Level 1','First Level',$,#10,$,$,$,.ELEMENT.,0.);
#14=IFCRELAGGREGATES('2MH0qYHvH8xgpuPHJrPH8t',$,'Storey Container',$,#11,(#13));
#15=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A movable wall',$,#10,$,$,.MOVABLE.);
#16=IFCMATERIAL('Timber',$,$);
#17=IFCMATERIALLAYER(#16,200,.U.,$,$,$,$);
#18=IFCMATERIALLAYERSET((#17),'Timber - 200mm',$);
#19=IFCMATERIALLAYERSETUSAGE(#18,.AXIS2.,.NEGATIVE.,100.0.,$);
#20=IFCRELASSOCIATESMATERIAL('3qGDYRqI98RApqr6xHdZKe',$,'Material to Wall',$,(#15),#19);
#21=IFCRECTANGLEPROFILEDEF(.AREA.,'Wall Profile',$,5000.,200.);
#22=IFCCARTESIANPOINT((0.,0.,0.));
#23=IFCDIRECTION((0.,0.,1.));
#24=IFCDIRECTION((1.,0.,0.));
#25=IFCAXIS2PLACEMENT3D(#22,#23,#24);
#26=IFCDIRECTION((0.,0.,1.));
#27=IFCEXTRUDEDAREASOLID(#21,#25,#26,4000.);
#28=IFCSHAPEREPRESENTATION(#1,'Body','SweptSolid',(#27));
#29=IFCPRODUCTDEFINITIONSHAPE($,$,(#28));
#30=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A movable wall',$,#10,#29,$,.MOVABLE.);
#31=IFCRELCONTAINEDINSPATIALSTRUCTURE('2ZAHNO3Qn8BxK$rKH6cl4D',$,'Wall Containment',$,(#30),#13);
#32=IFCPROPERTYSINGLEVALUE('LoadBearing',$,IFCBOOLEAN(.T.),$);
#33=IFCPROPERTYSINGLEVALUE('IsExternal',$,IFCBOOLEAN(.T.),$);
#34=IFCPROPERTYSINGLEVALUE('FireRating',$,IFCLABEL('F120'),$);
#35=IFCPROPERTYSET('2grnRSqIL7hh$liSj0W0Ht',$,'Pset_WallCommon',$,(#32,#33,#34));
#36=IFCRELDEFINESBYPROPERTIES('35A0dwNnD8fALlO7A2JM7c',$,'Wall Common Properties',$,(#30),#35); |
You are an IFC (Industry Foundation Classes) and BIM (Building Information Modeling) expert. Provide accurate, detailed, and practical answers to questions about IFC schemas, implementation, and usage in the AEC industry. | Create a complete IFC definition for a elementedwall wall that is 200mm thick, 2700mm high, 12000mm long, made of Masonry, load-bearing, external, with fire rating F30. | #1=IFCPROJECT('3MDa0qu6X5eBFeTDmhEULg',$,'Sample Project',$,$,$,$,$,$);
#2=IFCSIUNIT(*,.LENGTHUNIT.,.MILLI.,.METRE.);
#3=IFCSIUNIT(*,.AREAUNIT.,$,.SQUARE_METRE.);
#4=IFCSIUNIT(*,.VOLUMEUNIT.,$,.CUBIC_METRE.);
#5=IFCUNITASSIGNMENT((#2,#3,#4));
#6=IFCCARTESIANPOINT((0.,0.,0.));
#7=IFCDIRECTION((0.,0.,1.));
#8=IFCDIRECTION((1.,0.,0.));
#9=IFCAXIS2PLACEMENT3D(#6,#7,#8);
#10=IFCLOCALPLACEMENT($,#9);
#11=IFCBUILDING('2aG1gZj7PD2PztLOx2$yoY',$,'Building',$,$,#10,$,$,$,.ELEMENT.,$,$,$);
#12=IFCRELAGGREGATES('1Dd9Lcp$D9OQWkO1$Ykphl',$,'Building Container',$,#1,(#11));
#13=IFCBUILDINGSTOREY('1zS3wBH99AOguUiArbHbX8',$,'Level 1','First Level',$,#10,$,$,$,.ELEMENT.,0.);
#14=IFCRELAGGREGATES('2MH0qYHvH8xgpuPHJrPH8t',$,'Storey Container',$,#11,(#13));
#15=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A elementedwall wall',$,#10,$,$,.ELEMENTEDWALL.);
#16=IFCMATERIAL('Masonry',$,$);
#17=IFCMATERIALLAYER(#16,200,.U.,$,$,$,$);
#18=IFCMATERIALLAYERSET((#17),'Masonry - 200mm',$);
#19=IFCMATERIALLAYERSETUSAGE(#18,.AXIS2.,.NEGATIVE.,100.0.,$);
#20=IFCRELASSOCIATESMATERIAL('3qGDYRqI98RApqr6xHdZKe',$,'Material to Wall',$,(#15),#19);
#21=IFCRECTANGLEPROFILEDEF(.AREA.,'Wall Profile',$,12000.,200.);
#22=IFCCARTESIANPOINT((0.,0.,0.));
#23=IFCDIRECTION((0.,0.,1.));
#24=IFCDIRECTION((1.,0.,0.));
#25=IFCAXIS2PLACEMENT3D(#22,#23,#24);
#26=IFCDIRECTION((0.,0.,1.));
#27=IFCEXTRUDEDAREASOLID(#21,#25,#26,2700.);
#28=IFCSHAPEREPRESENTATION(#1,'Body','SweptSolid',(#27));
#29=IFCPRODUCTDEFINITIONSHAPE($,$,(#28));
#30=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A elementedwall wall',$,#10,#29,$,.ELEMENTEDWALL.);
#31=IFCRELCONTAINEDINSPATIALSTRUCTURE('2ZAHNO3Qn8BxK$rKH6cl4D',$,'Wall Containment',$,(#30),#13);
#32=IFCPROPERTYSINGLEVALUE('LoadBearing',$,IFCBOOLEAN(.T.),$);
#33=IFCPROPERTYSINGLEVALUE('IsExternal',$,IFCBOOLEAN(.T.),$);
#34=IFCPROPERTYSINGLEVALUE('FireRating',$,IFCLABEL('F30'),$);
#35=IFCPROPERTYSET('2grnRSqIL7hh$liSj0W0Ht',$,'Pset_WallCommon',$,(#32,#33,#34));
#36=IFCRELDEFINESBYPROPERTIES('35A0dwNnD8fALlO7A2JM7c',$,'Wall Common Properties',$,(#30),#35); |
You are an IFC (Industry Foundation Classes) and BIM (Building Information Modeling) expert. Provide accurate, detailed, and practical answers to questions about IFC schemas, implementation, and usage in the AEC industry. | Create a complete IFC definition for a retainingwall wall that is 100mm thick, 4000mm high, 5000mm long, made of Masonry, load-bearing, external, with fire rating F60. | #1=IFCPROJECT('3MDa0qu6X5eBFeTDmhEULg',$,'Sample Project',$,$,$,$,$,$);
#2=IFCSIUNIT(*,.LENGTHUNIT.,.MILLI.,.METRE.);
#3=IFCSIUNIT(*,.AREAUNIT.,$,.SQUARE_METRE.);
#4=IFCSIUNIT(*,.VOLUMEUNIT.,$,.CUBIC_METRE.);
#5=IFCUNITASSIGNMENT((#2,#3,#4));
#6=IFCCARTESIANPOINT((0.,0.,0.));
#7=IFCDIRECTION((0.,0.,1.));
#8=IFCDIRECTION((1.,0.,0.));
#9=IFCAXIS2PLACEMENT3D(#6,#7,#8);
#10=IFCLOCALPLACEMENT($,#9);
#11=IFCBUILDING('2aG1gZj7PD2PztLOx2$yoY',$,'Building',$,$,#10,$,$,$,.ELEMENT.,$,$,$);
#12=IFCRELAGGREGATES('1Dd9Lcp$D9OQWkO1$Ykphl',$,'Building Container',$,#1,(#11));
#13=IFCBUILDINGSTOREY('1zS3wBH99AOguUiArbHbX8',$,'Level 1','First Level',$,#10,$,$,$,.ELEMENT.,0.);
#14=IFCRELAGGREGATES('2MH0qYHvH8xgpuPHJrPH8t',$,'Storey Container',$,#11,(#13));
#15=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A retainingwall wall',$,#10,$,$,.RETAININGWALL.);
#16=IFCMATERIAL('Masonry',$,$);
#17=IFCMATERIALLAYER(#16,100,.U.,$,$,$,$);
#18=IFCMATERIALLAYERSET((#17),'Masonry - 100mm',$);
#19=IFCMATERIALLAYERSETUSAGE(#18,.AXIS2.,.NEGATIVE.,50.0.,$);
#20=IFCRELASSOCIATESMATERIAL('3qGDYRqI98RApqr6xHdZKe',$,'Material to Wall',$,(#15),#19);
#21=IFCRECTANGLEPROFILEDEF(.AREA.,'Wall Profile',$,5000.,100.);
#22=IFCCARTESIANPOINT((0.,0.,0.));
#23=IFCDIRECTION((0.,0.,1.));
#24=IFCDIRECTION((1.,0.,0.));
#25=IFCAXIS2PLACEMENT3D(#22,#23,#24);
#26=IFCDIRECTION((0.,0.,1.));
#27=IFCEXTRUDEDAREASOLID(#21,#25,#26,4000.);
#28=IFCSHAPEREPRESENTATION(#1,'Body','SweptSolid',(#27));
#29=IFCPRODUCTDEFINITIONSHAPE($,$,(#28));
#30=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A retainingwall wall',$,#10,#29,$,.RETAININGWALL.);
#31=IFCRELCONTAINEDINSPATIALSTRUCTURE('2ZAHNO3Qn8BxK$rKH6cl4D',$,'Wall Containment',$,(#30),#13);
#32=IFCPROPERTYSINGLEVALUE('LoadBearing',$,IFCBOOLEAN(.T.),$);
#33=IFCPROPERTYSINGLEVALUE('IsExternal',$,IFCBOOLEAN(.T.),$);
#34=IFCPROPERTYSINGLEVALUE('FireRating',$,IFCLABEL('F60'),$);
#35=IFCPROPERTYSET('2grnRSqIL7hh$liSj0W0Ht',$,'Pset_WallCommon',$,(#32,#33,#34));
#36=IFCRELDEFINESBYPROPERTIES('35A0dwNnD8fALlO7A2JM7c',$,'Wall Common Properties',$,(#30),#35); |
You are an IFC (Industry Foundation Classes) and BIM (Building Information Modeling) expert. Provide accurate, detailed, and practical answers to questions about IFC schemas, implementation, and usage in the AEC industry. | Create a complete IFC definition for a solidwall wall that is 50mm thick, 2700mm high, 12000mm long, made of Timber, load-bearing, internal, with fire rating F240. | #1=IFCPROJECT('3MDa0qu6X5eBFeTDmhEULg',$,'Sample Project',$,$,$,$,$,$);
#2=IFCSIUNIT(*,.LENGTHUNIT.,.MILLI.,.METRE.);
#3=IFCSIUNIT(*,.AREAUNIT.,$,.SQUARE_METRE.);
#4=IFCSIUNIT(*,.VOLUMEUNIT.,$,.CUBIC_METRE.);
#5=IFCUNITASSIGNMENT((#2,#3,#4));
#6=IFCCARTESIANPOINT((0.,0.,0.));
#7=IFCDIRECTION((0.,0.,1.));
#8=IFCDIRECTION((1.,0.,0.));
#9=IFCAXIS2PLACEMENT3D(#6,#7,#8);
#10=IFCLOCALPLACEMENT($,#9);
#11=IFCBUILDING('2aG1gZj7PD2PztLOx2$yoY',$,'Building',$,$,#10,$,$,$,.ELEMENT.,$,$,$);
#12=IFCRELAGGREGATES('1Dd9Lcp$D9OQWkO1$Ykphl',$,'Building Container',$,#1,(#11));
#13=IFCBUILDINGSTOREY('1zS3wBH99AOguUiArbHbX8',$,'Level 1','First Level',$,#10,$,$,$,.ELEMENT.,0.);
#14=IFCRELAGGREGATES('2MH0qYHvH8xgpuPHJrPH8t',$,'Storey Container',$,#11,(#13));
#15=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A solidwall wall',$,#10,$,$,.SOLIDWALL.);
#16=IFCMATERIAL('Timber',$,$);
#17=IFCMATERIALLAYER(#16,50,.U.,$,$,$,$);
#18=IFCMATERIALLAYERSET((#17),'Timber - 50mm',$);
#19=IFCMATERIALLAYERSETUSAGE(#18,.AXIS2.,.NEGATIVE.,25.0.,$);
#20=IFCRELASSOCIATESMATERIAL('3qGDYRqI98RApqr6xHdZKe',$,'Material to Wall',$,(#15),#19);
#21=IFCRECTANGLEPROFILEDEF(.AREA.,'Wall Profile',$,12000.,50.);
#22=IFCCARTESIANPOINT((0.,0.,0.));
#23=IFCDIRECTION((0.,0.,1.));
#24=IFCDIRECTION((1.,0.,0.));
#25=IFCAXIS2PLACEMENT3D(#22,#23,#24);
#26=IFCDIRECTION((0.,0.,1.));
#27=IFCEXTRUDEDAREASOLID(#21,#25,#26,2700.);
#28=IFCSHAPEREPRESENTATION(#1,'Body','SweptSolid',(#27));
#29=IFCPRODUCTDEFINITIONSHAPE($,$,(#28));
#30=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A solidwall wall',$,#10,#29,$,.SOLIDWALL.);
#31=IFCRELCONTAINEDINSPATIALSTRUCTURE('2ZAHNO3Qn8BxK$rKH6cl4D',$,'Wall Containment',$,(#30),#13);
#32=IFCPROPERTYSINGLEVALUE('LoadBearing',$,IFCBOOLEAN(.T.),$);
#33=IFCPROPERTYSINGLEVALUE('IsExternal',$,IFCBOOLEAN(.F.),$);
#34=IFCPROPERTYSINGLEVALUE('FireRating',$,IFCLABEL('F240'),$);
#35=IFCPROPERTYSET('2grnRSqIL7hh$liSj0W0Ht',$,'Pset_WallCommon',$,(#32,#33,#34));
#36=IFCRELDEFINESBYPROPERTIES('35A0dwNnD8fALlO7A2JM7c',$,'Wall Common Properties',$,(#30),#35); |
You are an IFC (Industry Foundation Classes) and BIM (Building Information Modeling) expert. Provide accurate, detailed, and practical answers to questions about IFC schemas, implementation, and usage in the AEC industry. | Create a complete IFC definition for a partitioning wall that is 300mm thick, 2400mm high, 12000mm long, made of Concrete, non-load-bearing, external, with fire rating F120. | #1=IFCPROJECT('3MDa0qu6X5eBFeTDmhEULg',$,'Sample Project',$,$,$,$,$,$);
#2=IFCSIUNIT(*,.LENGTHUNIT.,.MILLI.,.METRE.);
#3=IFCSIUNIT(*,.AREAUNIT.,$,.SQUARE_METRE.);
#4=IFCSIUNIT(*,.VOLUMEUNIT.,$,.CUBIC_METRE.);
#5=IFCUNITASSIGNMENT((#2,#3,#4));
#6=IFCCARTESIANPOINT((0.,0.,0.));
#7=IFCDIRECTION((0.,0.,1.));
#8=IFCDIRECTION((1.,0.,0.));
#9=IFCAXIS2PLACEMENT3D(#6,#7,#8);
#10=IFCLOCALPLACEMENT($,#9);
#11=IFCBUILDING('2aG1gZj7PD2PztLOx2$yoY',$,'Building',$,$,#10,$,$,$,.ELEMENT.,$,$,$);
#12=IFCRELAGGREGATES('1Dd9Lcp$D9OQWkO1$Ykphl',$,'Building Container',$,#1,(#11));
#13=IFCBUILDINGSTOREY('1zS3wBH99AOguUiArbHbX8',$,'Level 1','First Level',$,#10,$,$,$,.ELEMENT.,0.);
#14=IFCRELAGGREGATES('2MH0qYHvH8xgpuPHJrPH8t',$,'Storey Container',$,#11,(#13));
#15=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A partitioning wall',$,#10,$,$,.PARTITIONING.);
#16=IFCMATERIAL('Concrete',$,$);
#17=IFCMATERIALLAYER(#16,300,.U.,$,$,$,$);
#18=IFCMATERIALLAYERSET((#17),'Concrete - 300mm',$);
#19=IFCMATERIALLAYERSETUSAGE(#18,.AXIS2.,.NEGATIVE.,150.0.,$);
#20=IFCRELASSOCIATESMATERIAL('3qGDYRqI98RApqr6xHdZKe',$,'Material to Wall',$,(#15),#19);
#21=IFCRECTANGLEPROFILEDEF(.AREA.,'Wall Profile',$,12000.,300.);
#22=IFCCARTESIANPOINT((0.,0.,0.));
#23=IFCDIRECTION((0.,0.,1.));
#24=IFCDIRECTION((1.,0.,0.));
#25=IFCAXIS2PLACEMENT3D(#22,#23,#24);
#26=IFCDIRECTION((0.,0.,1.));
#27=IFCEXTRUDEDAREASOLID(#21,#25,#26,2400.);
#28=IFCSHAPEREPRESENTATION(#1,'Body','SweptSolid',(#27));
#29=IFCPRODUCTDEFINITIONSHAPE($,$,(#28));
#30=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A partitioning wall',$,#10,#29,$,.PARTITIONING.);
#31=IFCRELCONTAINEDINSPATIALSTRUCTURE('2ZAHNO3Qn8BxK$rKH6cl4D',$,'Wall Containment',$,(#30),#13);
#32=IFCPROPERTYSINGLEVALUE('LoadBearing',$,IFCBOOLEAN(.F.),$);
#33=IFCPROPERTYSINGLEVALUE('IsExternal',$,IFCBOOLEAN(.T.),$);
#34=IFCPROPERTYSINGLEVALUE('FireRating',$,IFCLABEL('F120'),$);
#35=IFCPROPERTYSET('2grnRSqIL7hh$liSj0W0Ht',$,'Pset_WallCommon',$,(#32,#33,#34));
#36=IFCRELDEFINESBYPROPERTIES('35A0dwNnD8fALlO7A2JM7c',$,'Wall Common Properties',$,(#30),#35); |
You are an IFC (Industry Foundation Classes) and BIM (Building Information Modeling) expert. Provide accurate, detailed, and practical answers to questions about IFC schemas, implementation, and usage in the AEC industry. | Create a complete IFC definition for a partitioning wall that is 300mm thick, 2700mm high, 3000mm long, made of Masonry, load-bearing, external, with fire rating F120. | #1=IFCPROJECT('3MDa0qu6X5eBFeTDmhEULg',$,'Sample Project',$,$,$,$,$,$);
#2=IFCSIUNIT(*,.LENGTHUNIT.,.MILLI.,.METRE.);
#3=IFCSIUNIT(*,.AREAUNIT.,$,.SQUARE_METRE.);
#4=IFCSIUNIT(*,.VOLUMEUNIT.,$,.CUBIC_METRE.);
#5=IFCUNITASSIGNMENT((#2,#3,#4));
#6=IFCCARTESIANPOINT((0.,0.,0.));
#7=IFCDIRECTION((0.,0.,1.));
#8=IFCDIRECTION((1.,0.,0.));
#9=IFCAXIS2PLACEMENT3D(#6,#7,#8);
#10=IFCLOCALPLACEMENT($,#9);
#11=IFCBUILDING('2aG1gZj7PD2PztLOx2$yoY',$,'Building',$,$,#10,$,$,$,.ELEMENT.,$,$,$);
#12=IFCRELAGGREGATES('1Dd9Lcp$D9OQWkO1$Ykphl',$,'Building Container',$,#1,(#11));
#13=IFCBUILDINGSTOREY('1zS3wBH99AOguUiArbHbX8',$,'Level 1','First Level',$,#10,$,$,$,.ELEMENT.,0.);
#14=IFCRELAGGREGATES('2MH0qYHvH8xgpuPHJrPH8t',$,'Storey Container',$,#11,(#13));
#15=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A partitioning wall',$,#10,$,$,.PARTITIONING.);
#16=IFCMATERIAL('Masonry',$,$);
#17=IFCMATERIALLAYER(#16,300,.U.,$,$,$,$);
#18=IFCMATERIALLAYERSET((#17),'Masonry - 300mm',$);
#19=IFCMATERIALLAYERSETUSAGE(#18,.AXIS2.,.NEGATIVE.,150.0.,$);
#20=IFCRELASSOCIATESMATERIAL('3qGDYRqI98RApqr6xHdZKe',$,'Material to Wall',$,(#15),#19);
#21=IFCRECTANGLEPROFILEDEF(.AREA.,'Wall Profile',$,3000.,300.);
#22=IFCCARTESIANPOINT((0.,0.,0.));
#23=IFCDIRECTION((0.,0.,1.));
#24=IFCDIRECTION((1.,0.,0.));
#25=IFCAXIS2PLACEMENT3D(#22,#23,#24);
#26=IFCDIRECTION((0.,0.,1.));
#27=IFCEXTRUDEDAREASOLID(#21,#25,#26,2700.);
#28=IFCSHAPEREPRESENTATION(#1,'Body','SweptSolid',(#27));
#29=IFCPRODUCTDEFINITIONSHAPE($,$,(#28));
#30=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A partitioning wall',$,#10,#29,$,.PARTITIONING.);
#31=IFCRELCONTAINEDINSPATIALSTRUCTURE('2ZAHNO3Qn8BxK$rKH6cl4D',$,'Wall Containment',$,(#30),#13);
#32=IFCPROPERTYSINGLEVALUE('LoadBearing',$,IFCBOOLEAN(.T.),$);
#33=IFCPROPERTYSINGLEVALUE('IsExternal',$,IFCBOOLEAN(.T.),$);
#34=IFCPROPERTYSINGLEVALUE('FireRating',$,IFCLABEL('F120'),$);
#35=IFCPROPERTYSET('2grnRSqIL7hh$liSj0W0Ht',$,'Pset_WallCommon',$,(#32,#33,#34));
#36=IFCRELDEFINESBYPROPERTIES('35A0dwNnD8fALlO7A2JM7c',$,'Wall Common Properties',$,(#30),#35); |
You are an IFC (Industry Foundation Classes) and BIM (Building Information Modeling) expert. Provide accurate, detailed, and practical answers to questions about IFC schemas, implementation, and usage in the AEC industry. | Create a complete IFC definition for a retainingwall wall that is 200mm thick, 2400mm high, 4000mm long, made of Concrete, load-bearing, external, with fire rating F90. | #1=IFCPROJECT('3MDa0qu6X5eBFeTDmhEULg',$,'Sample Project',$,$,$,$,$,$);
#2=IFCSIUNIT(*,.LENGTHUNIT.,.MILLI.,.METRE.);
#3=IFCSIUNIT(*,.AREAUNIT.,$,.SQUARE_METRE.);
#4=IFCSIUNIT(*,.VOLUMEUNIT.,$,.CUBIC_METRE.);
#5=IFCUNITASSIGNMENT((#2,#3,#4));
#6=IFCCARTESIANPOINT((0.,0.,0.));
#7=IFCDIRECTION((0.,0.,1.));
#8=IFCDIRECTION((1.,0.,0.));
#9=IFCAXIS2PLACEMENT3D(#6,#7,#8);
#10=IFCLOCALPLACEMENT($,#9);
#11=IFCBUILDING('2aG1gZj7PD2PztLOx2$yoY',$,'Building',$,$,#10,$,$,$,.ELEMENT.,$,$,$);
#12=IFCRELAGGREGATES('1Dd9Lcp$D9OQWkO1$Ykphl',$,'Building Container',$,#1,(#11));
#13=IFCBUILDINGSTOREY('1zS3wBH99AOguUiArbHbX8',$,'Level 1','First Level',$,#10,$,$,$,.ELEMENT.,0.);
#14=IFCRELAGGREGATES('2MH0qYHvH8xgpuPHJrPH8t',$,'Storey Container',$,#11,(#13));
#15=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A retainingwall wall',$,#10,$,$,.RETAININGWALL.);
#16=IFCMATERIAL('Concrete',$,$);
#17=IFCMATERIALLAYER(#16,200,.U.,$,$,$,$);
#18=IFCMATERIALLAYERSET((#17),'Concrete - 200mm',$);
#19=IFCMATERIALLAYERSETUSAGE(#18,.AXIS2.,.NEGATIVE.,100.0.,$);
#20=IFCRELASSOCIATESMATERIAL('3qGDYRqI98RApqr6xHdZKe',$,'Material to Wall',$,(#15),#19);
#21=IFCRECTANGLEPROFILEDEF(.AREA.,'Wall Profile',$,4000.,200.);
#22=IFCCARTESIANPOINT((0.,0.,0.));
#23=IFCDIRECTION((0.,0.,1.));
#24=IFCDIRECTION((1.,0.,0.));
#25=IFCAXIS2PLACEMENT3D(#22,#23,#24);
#26=IFCDIRECTION((0.,0.,1.));
#27=IFCEXTRUDEDAREASOLID(#21,#25,#26,2400.);
#28=IFCSHAPEREPRESENTATION(#1,'Body','SweptSolid',(#27));
#29=IFCPRODUCTDEFINITIONSHAPE($,$,(#28));
#30=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A retainingwall wall',$,#10,#29,$,.RETAININGWALL.);
#31=IFCRELCONTAINEDINSPATIALSTRUCTURE('2ZAHNO3Qn8BxK$rKH6cl4D',$,'Wall Containment',$,(#30),#13);
#32=IFCPROPERTYSINGLEVALUE('LoadBearing',$,IFCBOOLEAN(.T.),$);
#33=IFCPROPERTYSINGLEVALUE('IsExternal',$,IFCBOOLEAN(.T.),$);
#34=IFCPROPERTYSINGLEVALUE('FireRating',$,IFCLABEL('F90'),$);
#35=IFCPROPERTYSET('2grnRSqIL7hh$liSj0W0Ht',$,'Pset_WallCommon',$,(#32,#33,#34));
#36=IFCRELDEFINESBYPROPERTIES('35A0dwNnD8fALlO7A2JM7c',$,'Wall Common Properties',$,(#30),#35); |
You are an IFC (Industry Foundation Classes) and BIM (Building Information Modeling) expert. Provide accurate, detailed, and practical answers to questions about IFC schemas, implementation, and usage in the AEC industry. | Create a complete IFC definition for a plumbingwall wall that is 100mm thick, 4000mm high, 9000mm long, made of Masonry, non-load-bearing, internal, with fire rating F90. | #1=IFCPROJECT('3MDa0qu6X5eBFeTDmhEULg',$,'Sample Project',$,$,$,$,$,$);
#2=IFCSIUNIT(*,.LENGTHUNIT.,.MILLI.,.METRE.);
#3=IFCSIUNIT(*,.AREAUNIT.,$,.SQUARE_METRE.);
#4=IFCSIUNIT(*,.VOLUMEUNIT.,$,.CUBIC_METRE.);
#5=IFCUNITASSIGNMENT((#2,#3,#4));
#6=IFCCARTESIANPOINT((0.,0.,0.));
#7=IFCDIRECTION((0.,0.,1.));
#8=IFCDIRECTION((1.,0.,0.));
#9=IFCAXIS2PLACEMENT3D(#6,#7,#8);
#10=IFCLOCALPLACEMENT($,#9);
#11=IFCBUILDING('2aG1gZj7PD2PztLOx2$yoY',$,'Building',$,$,#10,$,$,$,.ELEMENT.,$,$,$);
#12=IFCRELAGGREGATES('1Dd9Lcp$D9OQWkO1$Ykphl',$,'Building Container',$,#1,(#11));
#13=IFCBUILDINGSTOREY('1zS3wBH99AOguUiArbHbX8',$,'Level 1','First Level',$,#10,$,$,$,.ELEMENT.,0.);
#14=IFCRELAGGREGATES('2MH0qYHvH8xgpuPHJrPH8t',$,'Storey Container',$,#11,(#13));
#15=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A plumbingwall wall',$,#10,$,$,.PLUMBINGWALL.);
#16=IFCMATERIAL('Masonry',$,$);
#17=IFCMATERIALLAYER(#16,100,.U.,$,$,$,$);
#18=IFCMATERIALLAYERSET((#17),'Masonry - 100mm',$);
#19=IFCMATERIALLAYERSETUSAGE(#18,.AXIS2.,.NEGATIVE.,50.0.,$);
#20=IFCRELASSOCIATESMATERIAL('3qGDYRqI98RApqr6xHdZKe',$,'Material to Wall',$,(#15),#19);
#21=IFCRECTANGLEPROFILEDEF(.AREA.,'Wall Profile',$,9000.,100.);
#22=IFCCARTESIANPOINT((0.,0.,0.));
#23=IFCDIRECTION((0.,0.,1.));
#24=IFCDIRECTION((1.,0.,0.));
#25=IFCAXIS2PLACEMENT3D(#22,#23,#24);
#26=IFCDIRECTION((0.,0.,1.));
#27=IFCEXTRUDEDAREASOLID(#21,#25,#26,4000.);
#28=IFCSHAPEREPRESENTATION(#1,'Body','SweptSolid',(#27));
#29=IFCPRODUCTDEFINITIONSHAPE($,$,(#28));
#30=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A plumbingwall wall',$,#10,#29,$,.PLUMBINGWALL.);
#31=IFCRELCONTAINEDINSPATIALSTRUCTURE('2ZAHNO3Qn8BxK$rKH6cl4D',$,'Wall Containment',$,(#30),#13);
#32=IFCPROPERTYSINGLEVALUE('LoadBearing',$,IFCBOOLEAN(.F.),$);
#33=IFCPROPERTYSINGLEVALUE('IsExternal',$,IFCBOOLEAN(.F.),$);
#34=IFCPROPERTYSINGLEVALUE('FireRating',$,IFCLABEL('F90'),$);
#35=IFCPROPERTYSET('2grnRSqIL7hh$liSj0W0Ht',$,'Pset_WallCommon',$,(#32,#33,#34));
#36=IFCRELDEFINESBYPROPERTIES('35A0dwNnD8fALlO7A2JM7c',$,'Wall Common Properties',$,(#30),#35); |
You are an IFC (Industry Foundation Classes) and BIM (Building Information Modeling) expert. Provide accurate, detailed, and practical answers to questions about IFC schemas, implementation, and usage in the AEC industry. | Create a complete IFC definition for a shear wall that is 250mm thick, 4000mm high, 4000mm long, made of Masonry, load-bearing, external, with fire rating F240. | #1=IFCPROJECT('3MDa0qu6X5eBFeTDmhEULg',$,'Sample Project',$,$,$,$,$,$);
#2=IFCSIUNIT(*,.LENGTHUNIT.,.MILLI.,.METRE.);
#3=IFCSIUNIT(*,.AREAUNIT.,$,.SQUARE_METRE.);
#4=IFCSIUNIT(*,.VOLUMEUNIT.,$,.CUBIC_METRE.);
#5=IFCUNITASSIGNMENT((#2,#3,#4));
#6=IFCCARTESIANPOINT((0.,0.,0.));
#7=IFCDIRECTION((0.,0.,1.));
#8=IFCDIRECTION((1.,0.,0.));
#9=IFCAXIS2PLACEMENT3D(#6,#7,#8);
#10=IFCLOCALPLACEMENT($,#9);
#11=IFCBUILDING('2aG1gZj7PD2PztLOx2$yoY',$,'Building',$,$,#10,$,$,$,.ELEMENT.,$,$,$);
#12=IFCRELAGGREGATES('1Dd9Lcp$D9OQWkO1$Ykphl',$,'Building Container',$,#1,(#11));
#13=IFCBUILDINGSTOREY('1zS3wBH99AOguUiArbHbX8',$,'Level 1','First Level',$,#10,$,$,$,.ELEMENT.,0.);
#14=IFCRELAGGREGATES('2MH0qYHvH8xgpuPHJrPH8t',$,'Storey Container',$,#11,(#13));
#15=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A shear wall',$,#10,$,$,.SHEAR.);
#16=IFCMATERIAL('Masonry',$,$);
#17=IFCMATERIALLAYER(#16,250,.U.,$,$,$,$);
#18=IFCMATERIALLAYERSET((#17),'Masonry - 250mm',$);
#19=IFCMATERIALLAYERSETUSAGE(#18,.AXIS2.,.NEGATIVE.,125.0.,$);
#20=IFCRELASSOCIATESMATERIAL('3qGDYRqI98RApqr6xHdZKe',$,'Material to Wall',$,(#15),#19);
#21=IFCRECTANGLEPROFILEDEF(.AREA.,'Wall Profile',$,4000.,250.);
#22=IFCCARTESIANPOINT((0.,0.,0.));
#23=IFCDIRECTION((0.,0.,1.));
#24=IFCDIRECTION((1.,0.,0.));
#25=IFCAXIS2PLACEMENT3D(#22,#23,#24);
#26=IFCDIRECTION((0.,0.,1.));
#27=IFCEXTRUDEDAREASOLID(#21,#25,#26,4000.);
#28=IFCSHAPEREPRESENTATION(#1,'Body','SweptSolid',(#27));
#29=IFCPRODUCTDEFINITIONSHAPE($,$,(#28));
#30=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A shear wall',$,#10,#29,$,.SHEAR.);
#31=IFCRELCONTAINEDINSPATIALSTRUCTURE('2ZAHNO3Qn8BxK$rKH6cl4D',$,'Wall Containment',$,(#30),#13);
#32=IFCPROPERTYSINGLEVALUE('LoadBearing',$,IFCBOOLEAN(.T.),$);
#33=IFCPROPERTYSINGLEVALUE('IsExternal',$,IFCBOOLEAN(.T.),$);
#34=IFCPROPERTYSINGLEVALUE('FireRating',$,IFCLABEL('F240'),$);
#35=IFCPROPERTYSET('2grnRSqIL7hh$liSj0W0Ht',$,'Pset_WallCommon',$,(#32,#33,#34));
#36=IFCRELDEFINESBYPROPERTIES('35A0dwNnD8fALlO7A2JM7c',$,'Wall Common Properties',$,(#30),#35); |
You are an IFC (Industry Foundation Classes) and BIM (Building Information Modeling) expert. Provide accurate, detailed, and practical answers to questions about IFC schemas, implementation, and usage in the AEC industry. | Create a complete IFC definition for a partitioning wall that is 380mm thick, 3300mm high, 4000mm long, made of Masonry, non-load-bearing, internal, with fire rating F180. | #1=IFCPROJECT('3MDa0qu6X5eBFeTDmhEULg',$,'Sample Project',$,$,$,$,$,$);
#2=IFCSIUNIT(*,.LENGTHUNIT.,.MILLI.,.METRE.);
#3=IFCSIUNIT(*,.AREAUNIT.,$,.SQUARE_METRE.);
#4=IFCSIUNIT(*,.VOLUMEUNIT.,$,.CUBIC_METRE.);
#5=IFCUNITASSIGNMENT((#2,#3,#4));
#6=IFCCARTESIANPOINT((0.,0.,0.));
#7=IFCDIRECTION((0.,0.,1.));
#8=IFCDIRECTION((1.,0.,0.));
#9=IFCAXIS2PLACEMENT3D(#6,#7,#8);
#10=IFCLOCALPLACEMENT($,#9);
#11=IFCBUILDING('2aG1gZj7PD2PztLOx2$yoY',$,'Building',$,$,#10,$,$,$,.ELEMENT.,$,$,$);
#12=IFCRELAGGREGATES('1Dd9Lcp$D9OQWkO1$Ykphl',$,'Building Container',$,#1,(#11));
#13=IFCBUILDINGSTOREY('1zS3wBH99AOguUiArbHbX8',$,'Level 1','First Level',$,#10,$,$,$,.ELEMENT.,0.);
#14=IFCRELAGGREGATES('2MH0qYHvH8xgpuPHJrPH8t',$,'Storey Container',$,#11,(#13));
#15=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A partitioning wall',$,#10,$,$,.PARTITIONING.);
#16=IFCMATERIAL('Masonry',$,$);
#17=IFCMATERIALLAYER(#16,380,.U.,$,$,$,$);
#18=IFCMATERIALLAYERSET((#17),'Masonry - 380mm',$);
#19=IFCMATERIALLAYERSETUSAGE(#18,.AXIS2.,.NEGATIVE.,190.0.,$);
#20=IFCRELASSOCIATESMATERIAL('3qGDYRqI98RApqr6xHdZKe',$,'Material to Wall',$,(#15),#19);
#21=IFCRECTANGLEPROFILEDEF(.AREA.,'Wall Profile',$,4000.,380.);
#22=IFCCARTESIANPOINT((0.,0.,0.));
#23=IFCDIRECTION((0.,0.,1.));
#24=IFCDIRECTION((1.,0.,0.));
#25=IFCAXIS2PLACEMENT3D(#22,#23,#24);
#26=IFCDIRECTION((0.,0.,1.));
#27=IFCEXTRUDEDAREASOLID(#21,#25,#26,3300.);
#28=IFCSHAPEREPRESENTATION(#1,'Body','SweptSolid',(#27));
#29=IFCPRODUCTDEFINITIONSHAPE($,$,(#28));
#30=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A partitioning wall',$,#10,#29,$,.PARTITIONING.);
#31=IFCRELCONTAINEDINSPATIALSTRUCTURE('2ZAHNO3Qn8BxK$rKH6cl4D',$,'Wall Containment',$,(#30),#13);
#32=IFCPROPERTYSINGLEVALUE('LoadBearing',$,IFCBOOLEAN(.F.),$);
#33=IFCPROPERTYSINGLEVALUE('IsExternal',$,IFCBOOLEAN(.F.),$);
#34=IFCPROPERTYSINGLEVALUE('FireRating',$,IFCLABEL('F180'),$);
#35=IFCPROPERTYSET('2grnRSqIL7hh$liSj0W0Ht',$,'Pset_WallCommon',$,(#32,#33,#34));
#36=IFCRELDEFINESBYPROPERTIES('35A0dwNnD8fALlO7A2JM7c',$,'Wall Common Properties',$,(#30),#35); |
You are an IFC (Industry Foundation Classes) and BIM (Building Information Modeling) expert. Provide accurate, detailed, and practical answers to questions about IFC schemas, implementation, and usage in the AEC industry. | Create a complete IFC definition for a movable wall that is 50mm thick, 4500mm high, 6000mm long, made of Timber, non-load-bearing, external, with fire rating F90. | #1=IFCPROJECT('3MDa0qu6X5eBFeTDmhEULg',$,'Sample Project',$,$,$,$,$,$);
#2=IFCSIUNIT(*,.LENGTHUNIT.,.MILLI.,.METRE.);
#3=IFCSIUNIT(*,.AREAUNIT.,$,.SQUARE_METRE.);
#4=IFCSIUNIT(*,.VOLUMEUNIT.,$,.CUBIC_METRE.);
#5=IFCUNITASSIGNMENT((#2,#3,#4));
#6=IFCCARTESIANPOINT((0.,0.,0.));
#7=IFCDIRECTION((0.,0.,1.));
#8=IFCDIRECTION((1.,0.,0.));
#9=IFCAXIS2PLACEMENT3D(#6,#7,#8);
#10=IFCLOCALPLACEMENT($,#9);
#11=IFCBUILDING('2aG1gZj7PD2PztLOx2$yoY',$,'Building',$,$,#10,$,$,$,.ELEMENT.,$,$,$);
#12=IFCRELAGGREGATES('1Dd9Lcp$D9OQWkO1$Ykphl',$,'Building Container',$,#1,(#11));
#13=IFCBUILDINGSTOREY('1zS3wBH99AOguUiArbHbX8',$,'Level 1','First Level',$,#10,$,$,$,.ELEMENT.,0.);
#14=IFCRELAGGREGATES('2MH0qYHvH8xgpuPHJrPH8t',$,'Storey Container',$,#11,(#13));
#15=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A movable wall',$,#10,$,$,.MOVABLE.);
#16=IFCMATERIAL('Timber',$,$);
#17=IFCMATERIALLAYER(#16,50,.U.,$,$,$,$);
#18=IFCMATERIALLAYERSET((#17),'Timber - 50mm',$);
#19=IFCMATERIALLAYERSETUSAGE(#18,.AXIS2.,.NEGATIVE.,25.0.,$);
#20=IFCRELASSOCIATESMATERIAL('3qGDYRqI98RApqr6xHdZKe',$,'Material to Wall',$,(#15),#19);
#21=IFCRECTANGLEPROFILEDEF(.AREA.,'Wall Profile',$,6000.,50.);
#22=IFCCARTESIANPOINT((0.,0.,0.));
#23=IFCDIRECTION((0.,0.,1.));
#24=IFCDIRECTION((1.,0.,0.));
#25=IFCAXIS2PLACEMENT3D(#22,#23,#24);
#26=IFCDIRECTION((0.,0.,1.));
#27=IFCEXTRUDEDAREASOLID(#21,#25,#26,4500.);
#28=IFCSHAPEREPRESENTATION(#1,'Body','SweptSolid',(#27));
#29=IFCPRODUCTDEFINITIONSHAPE($,$,(#28));
#30=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A movable wall',$,#10,#29,$,.MOVABLE.);
#31=IFCRELCONTAINEDINSPATIALSTRUCTURE('2ZAHNO3Qn8BxK$rKH6cl4D',$,'Wall Containment',$,(#30),#13);
#32=IFCPROPERTYSINGLEVALUE('LoadBearing',$,IFCBOOLEAN(.F.),$);
#33=IFCPROPERTYSINGLEVALUE('IsExternal',$,IFCBOOLEAN(.T.),$);
#34=IFCPROPERTYSINGLEVALUE('FireRating',$,IFCLABEL('F90'),$);
#35=IFCPROPERTYSET('2grnRSqIL7hh$liSj0W0Ht',$,'Pset_WallCommon',$,(#32,#33,#34));
#36=IFCRELDEFINESBYPROPERTIES('35A0dwNnD8fALlO7A2JM7c',$,'Wall Common Properties',$,(#30),#35); |
You are an IFC (Industry Foundation Classes) and BIM (Building Information Modeling) expert. Provide accurate, detailed, and practical answers to questions about IFC schemas, implementation, and usage in the AEC industry. | Create a complete IFC definition for a retainingwall wall that is 75mm thick, 2400mm high, 3000mm long, made of Timber, load-bearing, external, with fire rating F240. | #1=IFCPROJECT('3MDa0qu6X5eBFeTDmhEULg',$,'Sample Project',$,$,$,$,$,$);
#2=IFCSIUNIT(*,.LENGTHUNIT.,.MILLI.,.METRE.);
#3=IFCSIUNIT(*,.AREAUNIT.,$,.SQUARE_METRE.);
#4=IFCSIUNIT(*,.VOLUMEUNIT.,$,.CUBIC_METRE.);
#5=IFCUNITASSIGNMENT((#2,#3,#4));
#6=IFCCARTESIANPOINT((0.,0.,0.));
#7=IFCDIRECTION((0.,0.,1.));
#8=IFCDIRECTION((1.,0.,0.));
#9=IFCAXIS2PLACEMENT3D(#6,#7,#8);
#10=IFCLOCALPLACEMENT($,#9);
#11=IFCBUILDING('2aG1gZj7PD2PztLOx2$yoY',$,'Building',$,$,#10,$,$,$,.ELEMENT.,$,$,$);
#12=IFCRELAGGREGATES('1Dd9Lcp$D9OQWkO1$Ykphl',$,'Building Container',$,#1,(#11));
#13=IFCBUILDINGSTOREY('1zS3wBH99AOguUiArbHbX8',$,'Level 1','First Level',$,#10,$,$,$,.ELEMENT.,0.);
#14=IFCRELAGGREGATES('2MH0qYHvH8xgpuPHJrPH8t',$,'Storey Container',$,#11,(#13));
#15=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A retainingwall wall',$,#10,$,$,.RETAININGWALL.);
#16=IFCMATERIAL('Timber',$,$);
#17=IFCMATERIALLAYER(#16,75,.U.,$,$,$,$);
#18=IFCMATERIALLAYERSET((#17),'Timber - 75mm',$);
#19=IFCMATERIALLAYERSETUSAGE(#18,.AXIS2.,.NEGATIVE.,37.5.,$);
#20=IFCRELASSOCIATESMATERIAL('3qGDYRqI98RApqr6xHdZKe',$,'Material to Wall',$,(#15),#19);
#21=IFCRECTANGLEPROFILEDEF(.AREA.,'Wall Profile',$,3000.,75.);
#22=IFCCARTESIANPOINT((0.,0.,0.));
#23=IFCDIRECTION((0.,0.,1.));
#24=IFCDIRECTION((1.,0.,0.));
#25=IFCAXIS2PLACEMENT3D(#22,#23,#24);
#26=IFCDIRECTION((0.,0.,1.));
#27=IFCEXTRUDEDAREASOLID(#21,#25,#26,2400.);
#28=IFCSHAPEREPRESENTATION(#1,'Body','SweptSolid',(#27));
#29=IFCPRODUCTDEFINITIONSHAPE($,$,(#28));
#30=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A retainingwall wall',$,#10,#29,$,.RETAININGWALL.);
#31=IFCRELCONTAINEDINSPATIALSTRUCTURE('2ZAHNO3Qn8BxK$rKH6cl4D',$,'Wall Containment',$,(#30),#13);
#32=IFCPROPERTYSINGLEVALUE('LoadBearing',$,IFCBOOLEAN(.T.),$);
#33=IFCPROPERTYSINGLEVALUE('IsExternal',$,IFCBOOLEAN(.T.),$);
#34=IFCPROPERTYSINGLEVALUE('FireRating',$,IFCLABEL('F240'),$);
#35=IFCPROPERTYSET('2grnRSqIL7hh$liSj0W0Ht',$,'Pset_WallCommon',$,(#32,#33,#34));
#36=IFCRELDEFINESBYPROPERTIES('35A0dwNnD8fALlO7A2JM7c',$,'Wall Common Properties',$,(#30),#35); |
You are an IFC (Industry Foundation Classes) and BIM (Building Information Modeling) expert. Provide accurate, detailed, and practical answers to questions about IFC schemas, implementation, and usage in the AEC industry. | Create a complete IFC definition for a solidwall wall that is 50mm thick, 2400mm high, 9000mm long, made of Timber, load-bearing, internal, with fire rating F240. | #1=IFCPROJECT('3MDa0qu6X5eBFeTDmhEULg',$,'Sample Project',$,$,$,$,$,$);
#2=IFCSIUNIT(*,.LENGTHUNIT.,.MILLI.,.METRE.);
#3=IFCSIUNIT(*,.AREAUNIT.,$,.SQUARE_METRE.);
#4=IFCSIUNIT(*,.VOLUMEUNIT.,$,.CUBIC_METRE.);
#5=IFCUNITASSIGNMENT((#2,#3,#4));
#6=IFCCARTESIANPOINT((0.,0.,0.));
#7=IFCDIRECTION((0.,0.,1.));
#8=IFCDIRECTION((1.,0.,0.));
#9=IFCAXIS2PLACEMENT3D(#6,#7,#8);
#10=IFCLOCALPLACEMENT($,#9);
#11=IFCBUILDING('2aG1gZj7PD2PztLOx2$yoY',$,'Building',$,$,#10,$,$,$,.ELEMENT.,$,$,$);
#12=IFCRELAGGREGATES('1Dd9Lcp$D9OQWkO1$Ykphl',$,'Building Container',$,#1,(#11));
#13=IFCBUILDINGSTOREY('1zS3wBH99AOguUiArbHbX8',$,'Level 1','First Level',$,#10,$,$,$,.ELEMENT.,0.);
#14=IFCRELAGGREGATES('2MH0qYHvH8xgpuPHJrPH8t',$,'Storey Container',$,#11,(#13));
#15=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A solidwall wall',$,#10,$,$,.SOLIDWALL.);
#16=IFCMATERIAL('Timber',$,$);
#17=IFCMATERIALLAYER(#16,50,.U.,$,$,$,$);
#18=IFCMATERIALLAYERSET((#17),'Timber - 50mm',$);
#19=IFCMATERIALLAYERSETUSAGE(#18,.AXIS2.,.NEGATIVE.,25.0.,$);
#20=IFCRELASSOCIATESMATERIAL('3qGDYRqI98RApqr6xHdZKe',$,'Material to Wall',$,(#15),#19);
#21=IFCRECTANGLEPROFILEDEF(.AREA.,'Wall Profile',$,9000.,50.);
#22=IFCCARTESIANPOINT((0.,0.,0.));
#23=IFCDIRECTION((0.,0.,1.));
#24=IFCDIRECTION((1.,0.,0.));
#25=IFCAXIS2PLACEMENT3D(#22,#23,#24);
#26=IFCDIRECTION((0.,0.,1.));
#27=IFCEXTRUDEDAREASOLID(#21,#25,#26,2400.);
#28=IFCSHAPEREPRESENTATION(#1,'Body','SweptSolid',(#27));
#29=IFCPRODUCTDEFINITIONSHAPE($,$,(#28));
#30=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A solidwall wall',$,#10,#29,$,.SOLIDWALL.);
#31=IFCRELCONTAINEDINSPATIALSTRUCTURE('2ZAHNO3Qn8BxK$rKH6cl4D',$,'Wall Containment',$,(#30),#13);
#32=IFCPROPERTYSINGLEVALUE('LoadBearing',$,IFCBOOLEAN(.T.),$);
#33=IFCPROPERTYSINGLEVALUE('IsExternal',$,IFCBOOLEAN(.F.),$);
#34=IFCPROPERTYSINGLEVALUE('FireRating',$,IFCLABEL('F240'),$);
#35=IFCPROPERTYSET('2grnRSqIL7hh$liSj0W0Ht',$,'Pset_WallCommon',$,(#32,#33,#34));
#36=IFCRELDEFINESBYPROPERTIES('35A0dwNnD8fALlO7A2JM7c',$,'Wall Common Properties',$,(#30),#35); |
You are an IFC (Industry Foundation Classes) and BIM (Building Information Modeling) expert. Provide accurate, detailed, and practical answers to questions about IFC schemas, implementation, and usage in the AEC industry. | Create a complete IFC definition for a standard wall that is 200mm thick, 3600mm high, 3000mm long, made of Concrete, load-bearing, internal, with fire rating F30. | #1=IFCPROJECT('3MDa0qu6X5eBFeTDmhEULg',$,'Sample Project',$,$,$,$,$,$);
#2=IFCSIUNIT(*,.LENGTHUNIT.,.MILLI.,.METRE.);
#3=IFCSIUNIT(*,.AREAUNIT.,$,.SQUARE_METRE.);
#4=IFCSIUNIT(*,.VOLUMEUNIT.,$,.CUBIC_METRE.);
#5=IFCUNITASSIGNMENT((#2,#3,#4));
#6=IFCCARTESIANPOINT((0.,0.,0.));
#7=IFCDIRECTION((0.,0.,1.));
#8=IFCDIRECTION((1.,0.,0.));
#9=IFCAXIS2PLACEMENT3D(#6,#7,#8);
#10=IFCLOCALPLACEMENT($,#9);
#11=IFCBUILDING('2aG1gZj7PD2PztLOx2$yoY',$,'Building',$,$,#10,$,$,$,.ELEMENT.,$,$,$);
#12=IFCRELAGGREGATES('1Dd9Lcp$D9OQWkO1$Ykphl',$,'Building Container',$,#1,(#11));
#13=IFCBUILDINGSTOREY('1zS3wBH99AOguUiArbHbX8',$,'Level 1','First Level',$,#10,$,$,$,.ELEMENT.,0.);
#14=IFCRELAGGREGATES('2MH0qYHvH8xgpuPHJrPH8t',$,'Storey Container',$,#11,(#13));
#15=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A standard wall',$,#10,$,$,.STANDARD.);
#16=IFCMATERIAL('Concrete',$,$);
#17=IFCMATERIALLAYER(#16,200,.U.,$,$,$,$);
#18=IFCMATERIALLAYERSET((#17),'Concrete - 200mm',$);
#19=IFCMATERIALLAYERSETUSAGE(#18,.AXIS2.,.NEGATIVE.,100.0.,$);
#20=IFCRELASSOCIATESMATERIAL('3qGDYRqI98RApqr6xHdZKe',$,'Material to Wall',$,(#15),#19);
#21=IFCRECTANGLEPROFILEDEF(.AREA.,'Wall Profile',$,3000.,200.);
#22=IFCCARTESIANPOINT((0.,0.,0.));
#23=IFCDIRECTION((0.,0.,1.));
#24=IFCDIRECTION((1.,0.,0.));
#25=IFCAXIS2PLACEMENT3D(#22,#23,#24);
#26=IFCDIRECTION((0.,0.,1.));
#27=IFCEXTRUDEDAREASOLID(#21,#25,#26,3600.);
#28=IFCSHAPEREPRESENTATION(#1,'Body','SweptSolid',(#27));
#29=IFCPRODUCTDEFINITIONSHAPE($,$,(#28));
#30=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A standard wall',$,#10,#29,$,.STANDARD.);
#31=IFCRELCONTAINEDINSPATIALSTRUCTURE('2ZAHNO3Qn8BxK$rKH6cl4D',$,'Wall Containment',$,(#30),#13);
#32=IFCPROPERTYSINGLEVALUE('LoadBearing',$,IFCBOOLEAN(.T.),$);
#33=IFCPROPERTYSINGLEVALUE('IsExternal',$,IFCBOOLEAN(.F.),$);
#34=IFCPROPERTYSINGLEVALUE('FireRating',$,IFCLABEL('F30'),$);
#35=IFCPROPERTYSET('2grnRSqIL7hh$liSj0W0Ht',$,'Pset_WallCommon',$,(#32,#33,#34));
#36=IFCRELDEFINESBYPROPERTIES('35A0dwNnD8fALlO7A2JM7c',$,'Wall Common Properties',$,(#30),#35); |
You are an IFC (Industry Foundation Classes) and BIM (Building Information Modeling) expert. Provide accurate, detailed, and practical answers to questions about IFC schemas, implementation, and usage in the AEC industry. | Create a complete IFC definition for a elementedwall wall that is 500mm thick, 3300mm high, 3000mm long, made of Concrete, non-load-bearing, external, with fire rating F180. | #1=IFCPROJECT('3MDa0qu6X5eBFeTDmhEULg',$,'Sample Project',$,$,$,$,$,$);
#2=IFCSIUNIT(*,.LENGTHUNIT.,.MILLI.,.METRE.);
#3=IFCSIUNIT(*,.AREAUNIT.,$,.SQUARE_METRE.);
#4=IFCSIUNIT(*,.VOLUMEUNIT.,$,.CUBIC_METRE.);
#5=IFCUNITASSIGNMENT((#2,#3,#4));
#6=IFCCARTESIANPOINT((0.,0.,0.));
#7=IFCDIRECTION((0.,0.,1.));
#8=IFCDIRECTION((1.,0.,0.));
#9=IFCAXIS2PLACEMENT3D(#6,#7,#8);
#10=IFCLOCALPLACEMENT($,#9);
#11=IFCBUILDING('2aG1gZj7PD2PztLOx2$yoY',$,'Building',$,$,#10,$,$,$,.ELEMENT.,$,$,$);
#12=IFCRELAGGREGATES('1Dd9Lcp$D9OQWkO1$Ykphl',$,'Building Container',$,#1,(#11));
#13=IFCBUILDINGSTOREY('1zS3wBH99AOguUiArbHbX8',$,'Level 1','First Level',$,#10,$,$,$,.ELEMENT.,0.);
#14=IFCRELAGGREGATES('2MH0qYHvH8xgpuPHJrPH8t',$,'Storey Container',$,#11,(#13));
#15=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A elementedwall wall',$,#10,$,$,.ELEMENTEDWALL.);
#16=IFCMATERIAL('Concrete',$,$);
#17=IFCMATERIALLAYER(#16,500,.U.,$,$,$,$);
#18=IFCMATERIALLAYERSET((#17),'Concrete - 500mm',$);
#19=IFCMATERIALLAYERSETUSAGE(#18,.AXIS2.,.NEGATIVE.,250.0.,$);
#20=IFCRELASSOCIATESMATERIAL('3qGDYRqI98RApqr6xHdZKe',$,'Material to Wall',$,(#15),#19);
#21=IFCRECTANGLEPROFILEDEF(.AREA.,'Wall Profile',$,3000.,500.);
#22=IFCCARTESIANPOINT((0.,0.,0.));
#23=IFCDIRECTION((0.,0.,1.));
#24=IFCDIRECTION((1.,0.,0.));
#25=IFCAXIS2PLACEMENT3D(#22,#23,#24);
#26=IFCDIRECTION((0.,0.,1.));
#27=IFCEXTRUDEDAREASOLID(#21,#25,#26,3300.);
#28=IFCSHAPEREPRESENTATION(#1,'Body','SweptSolid',(#27));
#29=IFCPRODUCTDEFINITIONSHAPE($,$,(#28));
#30=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A elementedwall wall',$,#10,#29,$,.ELEMENTEDWALL.);
#31=IFCRELCONTAINEDINSPATIALSTRUCTURE('2ZAHNO3Qn8BxK$rKH6cl4D',$,'Wall Containment',$,(#30),#13);
#32=IFCPROPERTYSINGLEVALUE('LoadBearing',$,IFCBOOLEAN(.F.),$);
#33=IFCPROPERTYSINGLEVALUE('IsExternal',$,IFCBOOLEAN(.T.),$);
#34=IFCPROPERTYSINGLEVALUE('FireRating',$,IFCLABEL('F180'),$);
#35=IFCPROPERTYSET('2grnRSqIL7hh$liSj0W0Ht',$,'Pset_WallCommon',$,(#32,#33,#34));
#36=IFCRELDEFINESBYPROPERTIES('35A0dwNnD8fALlO7A2JM7c',$,'Wall Common Properties',$,(#30),#35); |
You are an IFC (Industry Foundation Classes) and BIM (Building Information Modeling) expert. Provide accurate, detailed, and practical answers to questions about IFC schemas, implementation, and usage in the AEC industry. | Create a complete IFC definition for a partitioning wall that is 150mm thick, 3300mm high, 3000mm long, made of Concrete, non-load-bearing, external, with fire rating F60. | #1=IFCPROJECT('3MDa0qu6X5eBFeTDmhEULg',$,'Sample Project',$,$,$,$,$,$);
#2=IFCSIUNIT(*,.LENGTHUNIT.,.MILLI.,.METRE.);
#3=IFCSIUNIT(*,.AREAUNIT.,$,.SQUARE_METRE.);
#4=IFCSIUNIT(*,.VOLUMEUNIT.,$,.CUBIC_METRE.);
#5=IFCUNITASSIGNMENT((#2,#3,#4));
#6=IFCCARTESIANPOINT((0.,0.,0.));
#7=IFCDIRECTION((0.,0.,1.));
#8=IFCDIRECTION((1.,0.,0.));
#9=IFCAXIS2PLACEMENT3D(#6,#7,#8);
#10=IFCLOCALPLACEMENT($,#9);
#11=IFCBUILDING('2aG1gZj7PD2PztLOx2$yoY',$,'Building',$,$,#10,$,$,$,.ELEMENT.,$,$,$);
#12=IFCRELAGGREGATES('1Dd9Lcp$D9OQWkO1$Ykphl',$,'Building Container',$,#1,(#11));
#13=IFCBUILDINGSTOREY('1zS3wBH99AOguUiArbHbX8',$,'Level 1','First Level',$,#10,$,$,$,.ELEMENT.,0.);
#14=IFCRELAGGREGATES('2MH0qYHvH8xgpuPHJrPH8t',$,'Storey Container',$,#11,(#13));
#15=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A partitioning wall',$,#10,$,$,.PARTITIONING.);
#16=IFCMATERIAL('Concrete',$,$);
#17=IFCMATERIALLAYER(#16,150,.U.,$,$,$,$);
#18=IFCMATERIALLAYERSET((#17),'Concrete - 150mm',$);
#19=IFCMATERIALLAYERSETUSAGE(#18,.AXIS2.,.NEGATIVE.,75.0.,$);
#20=IFCRELASSOCIATESMATERIAL('3qGDYRqI98RApqr6xHdZKe',$,'Material to Wall',$,(#15),#19);
#21=IFCRECTANGLEPROFILEDEF(.AREA.,'Wall Profile',$,3000.,150.);
#22=IFCCARTESIANPOINT((0.,0.,0.));
#23=IFCDIRECTION((0.,0.,1.));
#24=IFCDIRECTION((1.,0.,0.));
#25=IFCAXIS2PLACEMENT3D(#22,#23,#24);
#26=IFCDIRECTION((0.,0.,1.));
#27=IFCEXTRUDEDAREASOLID(#21,#25,#26,3300.);
#28=IFCSHAPEREPRESENTATION(#1,'Body','SweptSolid',(#27));
#29=IFCPRODUCTDEFINITIONSHAPE($,$,(#28));
#30=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A partitioning wall',$,#10,#29,$,.PARTITIONING.);
#31=IFCRELCONTAINEDINSPATIALSTRUCTURE('2ZAHNO3Qn8BxK$rKH6cl4D',$,'Wall Containment',$,(#30),#13);
#32=IFCPROPERTYSINGLEVALUE('LoadBearing',$,IFCBOOLEAN(.F.),$);
#33=IFCPROPERTYSINGLEVALUE('IsExternal',$,IFCBOOLEAN(.T.),$);
#34=IFCPROPERTYSINGLEVALUE('FireRating',$,IFCLABEL('F60'),$);
#35=IFCPROPERTYSET('2grnRSqIL7hh$liSj0W0Ht',$,'Pset_WallCommon',$,(#32,#33,#34));
#36=IFCRELDEFINESBYPROPERTIES('35A0dwNnD8fALlO7A2JM7c',$,'Wall Common Properties',$,(#30),#35); |
You are an IFC (Industry Foundation Classes) and BIM (Building Information Modeling) expert. Provide accurate, detailed, and practical answers to questions about IFC schemas, implementation, and usage in the AEC industry. | Create a complete IFC definition for a elementedwall wall that is 500mm thick, 2700mm high, 4500mm long, made of Concrete, load-bearing, external, with fire rating F30. | #1=IFCPROJECT('3MDa0qu6X5eBFeTDmhEULg',$,'Sample Project',$,$,$,$,$,$);
#2=IFCSIUNIT(*,.LENGTHUNIT.,.MILLI.,.METRE.);
#3=IFCSIUNIT(*,.AREAUNIT.,$,.SQUARE_METRE.);
#4=IFCSIUNIT(*,.VOLUMEUNIT.,$,.CUBIC_METRE.);
#5=IFCUNITASSIGNMENT((#2,#3,#4));
#6=IFCCARTESIANPOINT((0.,0.,0.));
#7=IFCDIRECTION((0.,0.,1.));
#8=IFCDIRECTION((1.,0.,0.));
#9=IFCAXIS2PLACEMENT3D(#6,#7,#8);
#10=IFCLOCALPLACEMENT($,#9);
#11=IFCBUILDING('2aG1gZj7PD2PztLOx2$yoY',$,'Building',$,$,#10,$,$,$,.ELEMENT.,$,$,$);
#12=IFCRELAGGREGATES('1Dd9Lcp$D9OQWkO1$Ykphl',$,'Building Container',$,#1,(#11));
#13=IFCBUILDINGSTOREY('1zS3wBH99AOguUiArbHbX8',$,'Level 1','First Level',$,#10,$,$,$,.ELEMENT.,0.);
#14=IFCRELAGGREGATES('2MH0qYHvH8xgpuPHJrPH8t',$,'Storey Container',$,#11,(#13));
#15=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A elementedwall wall',$,#10,$,$,.ELEMENTEDWALL.);
#16=IFCMATERIAL('Concrete',$,$);
#17=IFCMATERIALLAYER(#16,500,.U.,$,$,$,$);
#18=IFCMATERIALLAYERSET((#17),'Concrete - 500mm',$);
#19=IFCMATERIALLAYERSETUSAGE(#18,.AXIS2.,.NEGATIVE.,250.0.,$);
#20=IFCRELASSOCIATESMATERIAL('3qGDYRqI98RApqr6xHdZKe',$,'Material to Wall',$,(#15),#19);
#21=IFCRECTANGLEPROFILEDEF(.AREA.,'Wall Profile',$,4500.,500.);
#22=IFCCARTESIANPOINT((0.,0.,0.));
#23=IFCDIRECTION((0.,0.,1.));
#24=IFCDIRECTION((1.,0.,0.));
#25=IFCAXIS2PLACEMENT3D(#22,#23,#24);
#26=IFCDIRECTION((0.,0.,1.));
#27=IFCEXTRUDEDAREASOLID(#21,#25,#26,2700.);
#28=IFCSHAPEREPRESENTATION(#1,'Body','SweptSolid',(#27));
#29=IFCPRODUCTDEFINITIONSHAPE($,$,(#28));
#30=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A elementedwall wall',$,#10,#29,$,.ELEMENTEDWALL.);
#31=IFCRELCONTAINEDINSPATIALSTRUCTURE('2ZAHNO3Qn8BxK$rKH6cl4D',$,'Wall Containment',$,(#30),#13);
#32=IFCPROPERTYSINGLEVALUE('LoadBearing',$,IFCBOOLEAN(.T.),$);
#33=IFCPROPERTYSINGLEVALUE('IsExternal',$,IFCBOOLEAN(.T.),$);
#34=IFCPROPERTYSINGLEVALUE('FireRating',$,IFCLABEL('F30'),$);
#35=IFCPROPERTYSET('2grnRSqIL7hh$liSj0W0Ht',$,'Pset_WallCommon',$,(#32,#33,#34));
#36=IFCRELDEFINESBYPROPERTIES('35A0dwNnD8fALlO7A2JM7c',$,'Wall Common Properties',$,(#30),#35); |
You are an IFC (Industry Foundation Classes) and BIM (Building Information Modeling) expert. Provide accurate, detailed, and practical answers to questions about IFC schemas, implementation, and usage in the AEC industry. | Create a complete IFC definition for a plumbingwall wall that is 150mm thick, 2700mm high, 3000mm long, made of Masonry, load-bearing, external, with fire rating F60. | #1=IFCPROJECT('3MDa0qu6X5eBFeTDmhEULg',$,'Sample Project',$,$,$,$,$,$);
#2=IFCSIUNIT(*,.LENGTHUNIT.,.MILLI.,.METRE.);
#3=IFCSIUNIT(*,.AREAUNIT.,$,.SQUARE_METRE.);
#4=IFCSIUNIT(*,.VOLUMEUNIT.,$,.CUBIC_METRE.);
#5=IFCUNITASSIGNMENT((#2,#3,#4));
#6=IFCCARTESIANPOINT((0.,0.,0.));
#7=IFCDIRECTION((0.,0.,1.));
#8=IFCDIRECTION((1.,0.,0.));
#9=IFCAXIS2PLACEMENT3D(#6,#7,#8);
#10=IFCLOCALPLACEMENT($,#9);
#11=IFCBUILDING('2aG1gZj7PD2PztLOx2$yoY',$,'Building',$,$,#10,$,$,$,.ELEMENT.,$,$,$);
#12=IFCRELAGGREGATES('1Dd9Lcp$D9OQWkO1$Ykphl',$,'Building Container',$,#1,(#11));
#13=IFCBUILDINGSTOREY('1zS3wBH99AOguUiArbHbX8',$,'Level 1','First Level',$,#10,$,$,$,.ELEMENT.,0.);
#14=IFCRELAGGREGATES('2MH0qYHvH8xgpuPHJrPH8t',$,'Storey Container',$,#11,(#13));
#15=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A plumbingwall wall',$,#10,$,$,.PLUMBINGWALL.);
#16=IFCMATERIAL('Masonry',$,$);
#17=IFCMATERIALLAYER(#16,150,.U.,$,$,$,$);
#18=IFCMATERIALLAYERSET((#17),'Masonry - 150mm',$);
#19=IFCMATERIALLAYERSETUSAGE(#18,.AXIS2.,.NEGATIVE.,75.0.,$);
#20=IFCRELASSOCIATESMATERIAL('3qGDYRqI98RApqr6xHdZKe',$,'Material to Wall',$,(#15),#19);
#21=IFCRECTANGLEPROFILEDEF(.AREA.,'Wall Profile',$,3000.,150.);
#22=IFCCARTESIANPOINT((0.,0.,0.));
#23=IFCDIRECTION((0.,0.,1.));
#24=IFCDIRECTION((1.,0.,0.));
#25=IFCAXIS2PLACEMENT3D(#22,#23,#24);
#26=IFCDIRECTION((0.,0.,1.));
#27=IFCEXTRUDEDAREASOLID(#21,#25,#26,2700.);
#28=IFCSHAPEREPRESENTATION(#1,'Body','SweptSolid',(#27));
#29=IFCPRODUCTDEFINITIONSHAPE($,$,(#28));
#30=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A plumbingwall wall',$,#10,#29,$,.PLUMBINGWALL.);
#31=IFCRELCONTAINEDINSPATIALSTRUCTURE('2ZAHNO3Qn8BxK$rKH6cl4D',$,'Wall Containment',$,(#30),#13);
#32=IFCPROPERTYSINGLEVALUE('LoadBearing',$,IFCBOOLEAN(.T.),$);
#33=IFCPROPERTYSINGLEVALUE('IsExternal',$,IFCBOOLEAN(.T.),$);
#34=IFCPROPERTYSINGLEVALUE('FireRating',$,IFCLABEL('F60'),$);
#35=IFCPROPERTYSET('2grnRSqIL7hh$liSj0W0Ht',$,'Pset_WallCommon',$,(#32,#33,#34));
#36=IFCRELDEFINESBYPROPERTIES('35A0dwNnD8fALlO7A2JM7c',$,'Wall Common Properties',$,(#30),#35); |
You are an IFC (Industry Foundation Classes) and BIM (Building Information Modeling) expert. Provide accurate, detailed, and practical answers to questions about IFC schemas, implementation, and usage in the AEC industry. | Create a complete IFC definition for a polygonal wall that is 125mm thick, 4000mm high, 7500mm long, made of Timber, load-bearing, internal, with fire rating F240. | #1=IFCPROJECT('3MDa0qu6X5eBFeTDmhEULg',$,'Sample Project',$,$,$,$,$,$);
#2=IFCSIUNIT(*,.LENGTHUNIT.,.MILLI.,.METRE.);
#3=IFCSIUNIT(*,.AREAUNIT.,$,.SQUARE_METRE.);
#4=IFCSIUNIT(*,.VOLUMEUNIT.,$,.CUBIC_METRE.);
#5=IFCUNITASSIGNMENT((#2,#3,#4));
#6=IFCCARTESIANPOINT((0.,0.,0.));
#7=IFCDIRECTION((0.,0.,1.));
#8=IFCDIRECTION((1.,0.,0.));
#9=IFCAXIS2PLACEMENT3D(#6,#7,#8);
#10=IFCLOCALPLACEMENT($,#9);
#11=IFCBUILDING('2aG1gZj7PD2PztLOx2$yoY',$,'Building',$,$,#10,$,$,$,.ELEMENT.,$,$,$);
#12=IFCRELAGGREGATES('1Dd9Lcp$D9OQWkO1$Ykphl',$,'Building Container',$,#1,(#11));
#13=IFCBUILDINGSTOREY('1zS3wBH99AOguUiArbHbX8',$,'Level 1','First Level',$,#10,$,$,$,.ELEMENT.,0.);
#14=IFCRELAGGREGATES('2MH0qYHvH8xgpuPHJrPH8t',$,'Storey Container',$,#11,(#13));
#15=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A polygonal wall',$,#10,$,$,.POLYGONAL.);
#16=IFCMATERIAL('Timber',$,$);
#17=IFCMATERIALLAYER(#16,125,.U.,$,$,$,$);
#18=IFCMATERIALLAYERSET((#17),'Timber - 125mm',$);
#19=IFCMATERIALLAYERSETUSAGE(#18,.AXIS2.,.NEGATIVE.,62.5.,$);
#20=IFCRELASSOCIATESMATERIAL('3qGDYRqI98RApqr6xHdZKe',$,'Material to Wall',$,(#15),#19);
#21=IFCRECTANGLEPROFILEDEF(.AREA.,'Wall Profile',$,7500.,125.);
#22=IFCCARTESIANPOINT((0.,0.,0.));
#23=IFCDIRECTION((0.,0.,1.));
#24=IFCDIRECTION((1.,0.,0.));
#25=IFCAXIS2PLACEMENT3D(#22,#23,#24);
#26=IFCDIRECTION((0.,0.,1.));
#27=IFCEXTRUDEDAREASOLID(#21,#25,#26,4000.);
#28=IFCSHAPEREPRESENTATION(#1,'Body','SweptSolid',(#27));
#29=IFCPRODUCTDEFINITIONSHAPE($,$,(#28));
#30=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A polygonal wall',$,#10,#29,$,.POLYGONAL.);
#31=IFCRELCONTAINEDINSPATIALSTRUCTURE('2ZAHNO3Qn8BxK$rKH6cl4D',$,'Wall Containment',$,(#30),#13);
#32=IFCPROPERTYSINGLEVALUE('LoadBearing',$,IFCBOOLEAN(.T.),$);
#33=IFCPROPERTYSINGLEVALUE('IsExternal',$,IFCBOOLEAN(.F.),$);
#34=IFCPROPERTYSINGLEVALUE('FireRating',$,IFCLABEL('F240'),$);
#35=IFCPROPERTYSET('2grnRSqIL7hh$liSj0W0Ht',$,'Pset_WallCommon',$,(#32,#33,#34));
#36=IFCRELDEFINESBYPROPERTIES('35A0dwNnD8fALlO7A2JM7c',$,'Wall Common Properties',$,(#30),#35); |
You are an IFC (Industry Foundation Classes) and BIM (Building Information Modeling) expert. Provide accurate, detailed, and practical answers to questions about IFC schemas, implementation, and usage in the AEC industry. | Create a complete IFC definition for a movable wall that is 500mm thick, 3600mm high, 5000mm long, made of Concrete, load-bearing, external, with fire rating F90. | #1=IFCPROJECT('3MDa0qu6X5eBFeTDmhEULg',$,'Sample Project',$,$,$,$,$,$);
#2=IFCSIUNIT(*,.LENGTHUNIT.,.MILLI.,.METRE.);
#3=IFCSIUNIT(*,.AREAUNIT.,$,.SQUARE_METRE.);
#4=IFCSIUNIT(*,.VOLUMEUNIT.,$,.CUBIC_METRE.);
#5=IFCUNITASSIGNMENT((#2,#3,#4));
#6=IFCCARTESIANPOINT((0.,0.,0.));
#7=IFCDIRECTION((0.,0.,1.));
#8=IFCDIRECTION((1.,0.,0.));
#9=IFCAXIS2PLACEMENT3D(#6,#7,#8);
#10=IFCLOCALPLACEMENT($,#9);
#11=IFCBUILDING('2aG1gZj7PD2PztLOx2$yoY',$,'Building',$,$,#10,$,$,$,.ELEMENT.,$,$,$);
#12=IFCRELAGGREGATES('1Dd9Lcp$D9OQWkO1$Ykphl',$,'Building Container',$,#1,(#11));
#13=IFCBUILDINGSTOREY('1zS3wBH99AOguUiArbHbX8',$,'Level 1','First Level',$,#10,$,$,$,.ELEMENT.,0.);
#14=IFCRELAGGREGATES('2MH0qYHvH8xgpuPHJrPH8t',$,'Storey Container',$,#11,(#13));
#15=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A movable wall',$,#10,$,$,.MOVABLE.);
#16=IFCMATERIAL('Concrete',$,$);
#17=IFCMATERIALLAYER(#16,500,.U.,$,$,$,$);
#18=IFCMATERIALLAYERSET((#17),'Concrete - 500mm',$);
#19=IFCMATERIALLAYERSETUSAGE(#18,.AXIS2.,.NEGATIVE.,250.0.,$);
#20=IFCRELASSOCIATESMATERIAL('3qGDYRqI98RApqr6xHdZKe',$,'Material to Wall',$,(#15),#19);
#21=IFCRECTANGLEPROFILEDEF(.AREA.,'Wall Profile',$,5000.,500.);
#22=IFCCARTESIANPOINT((0.,0.,0.));
#23=IFCDIRECTION((0.,0.,1.));
#24=IFCDIRECTION((1.,0.,0.));
#25=IFCAXIS2PLACEMENT3D(#22,#23,#24);
#26=IFCDIRECTION((0.,0.,1.));
#27=IFCEXTRUDEDAREASOLID(#21,#25,#26,3600.);
#28=IFCSHAPEREPRESENTATION(#1,'Body','SweptSolid',(#27));
#29=IFCPRODUCTDEFINITIONSHAPE($,$,(#28));
#30=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A movable wall',$,#10,#29,$,.MOVABLE.);
#31=IFCRELCONTAINEDINSPATIALSTRUCTURE('2ZAHNO3Qn8BxK$rKH6cl4D',$,'Wall Containment',$,(#30),#13);
#32=IFCPROPERTYSINGLEVALUE('LoadBearing',$,IFCBOOLEAN(.T.),$);
#33=IFCPROPERTYSINGLEVALUE('IsExternal',$,IFCBOOLEAN(.T.),$);
#34=IFCPROPERTYSINGLEVALUE('FireRating',$,IFCLABEL('F90'),$);
#35=IFCPROPERTYSET('2grnRSqIL7hh$liSj0W0Ht',$,'Pset_WallCommon',$,(#32,#33,#34));
#36=IFCRELDEFINESBYPROPERTIES('35A0dwNnD8fALlO7A2JM7c',$,'Wall Common Properties',$,(#30),#35); |
You are an IFC (Industry Foundation Classes) and BIM (Building Information Modeling) expert. Provide accurate, detailed, and practical answers to questions about IFC schemas, implementation, and usage in the AEC industry. | Create a complete IFC definition for a partitioning wall that is 350mm thick, 3600mm high, 3000mm long, made of Concrete, load-bearing, external, with fire rating F30. | #1=IFCPROJECT('3MDa0qu6X5eBFeTDmhEULg',$,'Sample Project',$,$,$,$,$,$);
#2=IFCSIUNIT(*,.LENGTHUNIT.,.MILLI.,.METRE.);
#3=IFCSIUNIT(*,.AREAUNIT.,$,.SQUARE_METRE.);
#4=IFCSIUNIT(*,.VOLUMEUNIT.,$,.CUBIC_METRE.);
#5=IFCUNITASSIGNMENT((#2,#3,#4));
#6=IFCCARTESIANPOINT((0.,0.,0.));
#7=IFCDIRECTION((0.,0.,1.));
#8=IFCDIRECTION((1.,0.,0.));
#9=IFCAXIS2PLACEMENT3D(#6,#7,#8);
#10=IFCLOCALPLACEMENT($,#9);
#11=IFCBUILDING('2aG1gZj7PD2PztLOx2$yoY',$,'Building',$,$,#10,$,$,$,.ELEMENT.,$,$,$);
#12=IFCRELAGGREGATES('1Dd9Lcp$D9OQWkO1$Ykphl',$,'Building Container',$,#1,(#11));
#13=IFCBUILDINGSTOREY('1zS3wBH99AOguUiArbHbX8',$,'Level 1','First Level',$,#10,$,$,$,.ELEMENT.,0.);
#14=IFCRELAGGREGATES('2MH0qYHvH8xgpuPHJrPH8t',$,'Storey Container',$,#11,(#13));
#15=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A partitioning wall',$,#10,$,$,.PARTITIONING.);
#16=IFCMATERIAL('Concrete',$,$);
#17=IFCMATERIALLAYER(#16,350,.U.,$,$,$,$);
#18=IFCMATERIALLAYERSET((#17),'Concrete - 350mm',$);
#19=IFCMATERIALLAYERSETUSAGE(#18,.AXIS2.,.NEGATIVE.,175.0.,$);
#20=IFCRELASSOCIATESMATERIAL('3qGDYRqI98RApqr6xHdZKe',$,'Material to Wall',$,(#15),#19);
#21=IFCRECTANGLEPROFILEDEF(.AREA.,'Wall Profile',$,3000.,350.);
#22=IFCCARTESIANPOINT((0.,0.,0.));
#23=IFCDIRECTION((0.,0.,1.));
#24=IFCDIRECTION((1.,0.,0.));
#25=IFCAXIS2PLACEMENT3D(#22,#23,#24);
#26=IFCDIRECTION((0.,0.,1.));
#27=IFCEXTRUDEDAREASOLID(#21,#25,#26,3600.);
#28=IFCSHAPEREPRESENTATION(#1,'Body','SweptSolid',(#27));
#29=IFCPRODUCTDEFINITIONSHAPE($,$,(#28));
#30=IFCWALL('2aG1gZj7PD2PztLOx2$yoX',$,'Wall','A partitioning wall',$,#10,#29,$,.PARTITIONING.);
#31=IFCRELCONTAINEDINSPATIALSTRUCTURE('2ZAHNO3Qn8BxK$rKH6cl4D',$,'Wall Containment',$,(#30),#13);
#32=IFCPROPERTYSINGLEVALUE('LoadBearing',$,IFCBOOLEAN(.T.),$);
#33=IFCPROPERTYSINGLEVALUE('IsExternal',$,IFCBOOLEAN(.T.),$);
#34=IFCPROPERTYSINGLEVALUE('FireRating',$,IFCLABEL('F30'),$);
#35=IFCPROPERTYSET('2grnRSqIL7hh$liSj0W0Ht',$,'Pset_WallCommon',$,(#32,#33,#34));
#36=IFCRELDEFINESBYPROPERTIES('35A0dwNnD8fALlO7A2JM7c',$,'Wall Common Properties',$,(#30),#35); |
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in Data Studio
IFC BIM High-Quality Dataset (Alpaca Format)
Dataset Description
This is a high-quality, curated dataset for training language models on IFC (Industry Foundation Classes) and BIM (Building Information Modeling) tasks. The dataset has been filtered for quality and is provided in the Alpaca instruction-following format.
Dataset Summary
- Total entries: 42,680
- Format: Alpaca (instruction, input, output)
- Language: English
- Domain: IFC/BIM technical documentation and code generation
Quality Filtering
This dataset has been filtered using strict quality criteria:
- Minimum content length requirements
- Presence of IFC/BIM specific terminology
- Valid IFC code patterns in outputs
- Well-structured responses
- No placeholder or template text
- No encoding issues
Only entries scoring 75% or higher on quality metrics were retained.
Data Fields
instruction: The task instruction (usually a system prompt for IFC/BIM expertise)input: The specific question or task descriptionoutput: The expected response (can include IFC code, explanations, or structured data)
Usage
This dataset is designed for fine-tuning language models for IFC/BIM-specific tasks such as:
- IFC code generation
- BIM concept explanation
- IFC entity and property queries
- Building element modeling
- Technical documentation generation
Example
{
"instruction": "You are an IFC (Industry Foundation Classes) and BIM (Building Information Modeling) expert. Provide accurate, detailed, and practical answers to questions about IFC schemas, implementation, and usage in the AEC industry.",
"input": "Create a complete IFC definition for a shear wall that is 100mm thick, 2400mm high, 3600mm long, made of Masonry, load-bearing, internal, with fire rating F30.",
"output": "#1=IFCPROJECT('3MDa0qu6X5eBFeTDmhEULg',$,'Sample Project',$,$,$,$,$,$);\n#2=IFCSIUNIT(*,.LENGTHUNIT.,.MILLI.,.METRE.);\n..."
}
Dataset Creation
This dataset was created by:
- Merging multiple IFC/BIM datasets
- Removing duplicates based on content hashing
- Applying strict quality filters
- Converting to Alpaca format
License
Apache 2.0
Citation
If you use this dataset, please cite:
@dataset{ifc_bim_high_quality_2025,
title={IFC BIM High-Quality Dataset},
year={2025},
month={1},
publisher={HuggingFace}
}
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