![](/uploads/s/t/v/l/tvlhyff3jzix/img/qXrUD8qV.jpg)
STONE CLADDING DESIGN/ENGINEERING
demo
Stone Cladding 3D Rendering Sample
![](/uploads/s/t/v/l/tvlhyff3jzix/img/autocrop/e865a74defff7da42c68560288e04b22.jpg)
Detailed Fab Model
![](/uploads/s/t/v/l/tvlhyff3jzix/img/autocrop/73e0b8ef0e8a12c6f07846ebc9d4de51.png)
how to set the online model
![](/uploads/s/t/v/l/tvlhyff3jzix/img/autocrop/89f006f541a399f0012862e82e661973.png)
![](/uploads/s/t/v/l/tvlhyff3jzix/img/autocrop/390279c2992f27eda2b871177b6539d6.png)
![](/uploads/s/t/v/l/tvlhyff3jzix/img/autocrop/fa69a020002be4c850e3f3333280220e.jpg)
Bill of Material Sample
![](/uploads/s/t/v/l/tvlhyff3jzix/img/autocrop/bc83116d58ef2c60f6a20fd4439fc805.jpg)
Stone Cladding Engineering Sample
A. Design Synopsis
This curtain wall is a Granite cladding system.
A.1.1 Load path due to Wind load: (see fig.x)
1) Wind load work on the surface of granite panel: (1a) & (1b)
2) The load is transferred to aluminum transom (Top & bottom of granite panel): (2a) & (2b) & (2c)
3) The load is transferred to aluminum angle @both ends of transom: (3)
4) Then the load is transferred to steel column through s.s screw: (4)
5) Finally, all the forces are transferred to cast-in embed via G.M.S. brackets, and then to R.C structure.
B.1.2 Load path due to Dead load of Granite:
1) Gravity works on the granite panel: (1a) & (1b)
2) The load is transferred to aluminum transom (Top & bottom of granite panel): (2a) & (2b) & (2c)
3) The load is transferred to aluminum angle @both ends of transom: (3)
4) Then the load is transferred to steel column through s.s screw: (4)
5) Finally, all the forces are transferred to cast-in embed via G.M.S. brackets, and then to R.C structure.
![](/uploads/s/t/v/l/tvlhyff3jzix/img/autocrop/56dd2e23736e0d624dafca0bedf223d6.jpg)
![](/uploads/s/t/v/l/tvlhyff3jzix/img/autocrop/7a6738164db27f296e812bfe9b346643.jpg)
![](/uploads/s/t/v/l/tvlhyff3jzix/img/autocrop/7677e185f658237606b6505d5909cd77.jpg)
ModeloBIM
0
item(s)
/
0 ¥
Modelo
BIM