Stress analysis of Sample One



  1. File Information
  2. Materials
  3. Load & Restraint Information
  4. Study Property
  5. Stress Results
  6. Deformation Results
  7. Appendix



1. File Information



Model name: Sample One
Model location: C:\INED Website
Results location: C:\INED Website
Study name: Sample One




2. Materials



No. Part Name Material Mass Volume
1 Lock clip [SW]POM Acetal Copolymer 0.00333629 kg 2.40021e-006 m^3



3. Load & Restraint Information



Restraint
Fixing Face <> on immovable (no translation).
Description:


Load
Main Face <> on with Pressure 80 N/m^2 along direction normal to selected face
Description:




4. Study Property



Mesh Information
Mesh Type: Solid mesh
Mesher Used: Standard
Automatic Transition: Off
Smooth Surface: On
Jacobian Check: 4 Points
Element Size: 1.3395 mm
Tolerance: 0.066974 mm
Quality: High
Number of elements: 7579
Number of nodes: 12761



Solver Information
Quality: High
Solver Type: FFE








5. Stress Results



Name Type Min Location Max Location
Plot1 VON: von Mises stress
10.2222 N/m^2
(-11.5 mm,
5 mm,
-14 mm)
25623.6 N/m^2
(-0.638889 mm,
5.65625 mm,
-2 mm)



Sample One - Stress Plot
JPEG
VIEW






6. Deformation Results



Plot No. Scale Factor
1 2071.3



Sample One - Deformation Plot
JPEG
VIEW






7. Appendix



Material name: [SW]POM Acetal Copolymer
Description:
Material Source: Used SolidWorks material
Material Library Name:
Material Model Type: Linear Elastic Isotropic
Unit system: SI

Property Name Value
Elastic modulus 2.6e+009 N/m^2
Poisson's ratio 0.3859
Yield strength 0 N/m^2
Mass density 1390 kg/m^3







Note:

Design analysis results are based on linear static analysis and the material is assumed isotropic. Linear static analysis assumes that: 1) the material behavior is linear complying with Hooke’s law, 2) induced displacements are adequately small to ignore changes in stiffness due to loading, and 3) loads are applied slowly in order to ignore dynamic effects.

Do not base your design decisions solely on the data presented in this report. Use this information in conjunction with experimental data and practical experience. Field testing is mandatory to validate your final design. Finite Element Analysis helps you reduce your time-to-market by reducing but not eliminating field tests.