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wiki:sns:intactgh:ex_1 [2023/08/03 12:42] goldywiki:sns:intactgh:ex_1 [2024/02/01 13:14] (current) graham
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 ======Ex-1: Stress simulation of a bonded assembly====== ======Ex-1: Stress simulation of a bonded assembly======
-🧰 The Rhino and Grasshopper files used in this example can be downloaded here: {{ :wiki:sns:intactgh:connecting_rod_assembly.zip |}}+ 
 +=====Video Walkthrough===== 
 +* Note: this video was made with Rhino 7 so some minor changes may be present, the workflow remains consistent though. * 
 + 
 +{{ :wiki:sns:intactgh:ex1_final.mp4?900 |}} 
 + 
 +🧰 The Rhino and Grasshopper files used in this example can be downloaded here: {{ :wiki:sns:intactgh:connecting_rod_assembly.zip |}} \\ 
 +*Legacy* files for Rhino 7 can also be found here: {{:wiki:sns:intactgh:connecting_rod_assembly_rhino7.zip}} 
  
 This example demonstrates how to simulate a lattice infilled part, which is a bonded assembly of a lattice infill (STL) and an outer geometry (B-rep) as shown in the picture below. This example demonstrates how to simulate a lattice infilled part, which is a bonded assembly of a lattice infill (STL) and an outer geometry (B-rep) as shown in the picture below.
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   * Use the merge block to join the two components as a bonded assembly as shown in (f)   * Use the merge block to join the two components as a bonded assembly as shown in (f)
  
-{{ :wiki:sns:intactgh:ex1_b.png?400 |}}+{{ :wiki:sns:intactgh:ex1_b.png |}}
  
 =====Applying loads and boundary conditions===== =====Applying loads and boundary conditions=====
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   * Create a vector load block and connect the loading surface, the magnitude of the force, and the direction as shown in (f)   * Create a vector load block and connect the loading surface, the magnitude of the force, and the direction as shown in (f)
  
-{{ :wiki:sns:intactgh:ex1_c.png?600 |}}+{{ :wiki:sns:intactgh:ex1_c.png |}}
 =====Setup solver===== =====Setup solver=====
   * Create a solver settings block as shown in (a)   * Create a solver settings block as shown in (a)
-      *  Set the FEA cell size 0.5 mm+      *  Set the FEA resolution 500k
       * Select the linear solver type (iterative)       * Select the linear solver type (iterative)
       * Select the basis order ( basis order = 1 for linear elements)       * Select the basis order ( basis order = 1 for linear elements)
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   * Hit solve to compute the solution   * Hit solve to compute the solution
  
-{{ :wiki:sns:intactgh:ex1_d.png?200 |}}+{{ :wiki:sns:intactgh:ex1_d.png |}}
  
 =====Setup visualization block===== =====Setup visualization block=====
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   * Right click on the visualize block and choose the simulation output for display (e.g. Von Mises stress or total displacement).   * Right click on the visualize block and choose the simulation output for display (e.g. Von Mises stress or total displacement).
  
-{{ :wiki:sns:intactgh:ex1_e.png?200 |}}+{{ :wiki:sns:intactgh:ex1_e.png |}}
  
  
wiki/sns/intactgh/ex_1.1691088121.txt.gz · Last modified: 2023/08/03 12:42 by goldy