PR1p5mm
Analyzed File WO4Setup_Beta_Cube_Top_1.5mm v3 Version Autodesk Fusion (2606.1.33)
Creation Date 2026-02-06, 17:17:16 Author User
Report Properties
Report Properties
TitleStudies
AuthorUser
Simulation Model 1
PR
Study Properties
Study Properties
Study Type Static Stress
Last Modification Date 2026-02-06, 17:14:21
Study Setup
Settings
General
Contact Tolerance0.10 mm
Remove Rigid Body ModesNo
Mesh
Average Element Size (% of model size) - Solids 10
Scale Mesh Size Per Part No
Average Element Size (absolute value) -
Element Order Parabolic
Create Curved Mesh Elements Yes
Max. Turn Angle on Curves (Deg.) 60
Max. Adjacent Mesh Size Ratio 1.5
Max. Aspect Ratio 10
Minimum Element Size (% of average size) 20
Adaptive Mesh Refinement
Number of Refinement Steps 0
Results Convergence Tolerance (%) 20
Portion of Elements to Refine (%)10
Results for Baseline Accuracyvon Mises Stress
Materials
Phenolic Resin
Components
Component Strength
Body4Yield Strength
Properties
Density1.380E-06 kg / mm^3
Young's Modulus6890.00 MPa
Poisson's Ratio0.34
Yield Strength51.71 MPa
Ultimate Tensile Strength51.71 MPa
Thermal Conductivity1.700E-04 W / (mm C)
Thermal Expansion Coefficient2.750E-05 / C
Specific Heat1464.00 J / (kg C)
Contacts
Contact Type Contact Set Penetration Type Bodies Entities
Mesh
TypeSolids
Nodes27163
Elements14026
Load Case1
Constraints
Fixed3
TypeFixed
UxFixed
UyFixed
UzFixed
Loads
Force1
TypeForce
Magnitude100.00 N
X Value0.00 N
Y Value0.00 N
Z Value-100.00 N
Force Per EntityNo
Load Case1 - Guided Results
Safety Factor
With the analysis criteria in this study setup, the design is expected to bend permanently or break.
Next Steps
Below Safety Factor Target
Validate your study setup
  • Check the loads are not set too high
  • Check the mesh refinement and consider increasing it in areas of high stress
  • Confirm your Safety Factor requirement
  • If the Displacement result shows high displacement, consider running a Nonlinear study to gain more insight
Check other results
  • Examine the Below target Result visualization to see where the weakest areas are
  • Check the stress result to see if, and where, the material might yield
  • Check the displacement result to see how far from its original alignment the model has moved
  • Look at other results, such as reaction forces to check your study set up, or strain to check your material performance
Strengthen weak areas
  • Add more material to weak areas
  • Select a material with a higher yield strength
  • Stiffen the design
  • Modify the shape with a Generative Design study
Generate alternative designs
  • Add more material to weak areas
  • Select a material with a higher yield strength
  • Stiffen the design
  • Modify the shape with a Generative Design study
Meets Safety Factor Target
Validate your study setup
  • Check the loads are not set too high
  • Check the mesh refinement and consider increasing it in areas of high stress
  • Confirm your Safety Factor requirement
  • If the Displacement result shows high displacement, consider running a Nonlinear study to gain more insight
Check other results
  • Examine the Below target Result visualization to see where the weakest areas are
  • Check the stress result to see if, and where, the material might yield
  • Check the displacement result to see how far from its original alignment the model has moved
  • Look at other results, such as reaction forces to check your study set up, or strain to check your material performance
Above Safety Factor Limit
Validate your study setup
  • Check the loads are not set too high
  • Check the mesh refinement and consider increasing it in areas of high stress
  • Confirm your Safety Factor requirement
  • If the Displacement result shows high displacement, consider running a Nonlinear study to gain more insight
Check other results
  • Examine the Below target Result visualization to see where the weakest areas are
  • Check the stress result to see if, and where, the material might yield
  • Check the displacement result to see how far from its original alignment the model has moved
  • Look at other results, such as reaction forces to check your study set up, or strain to check your material performance
Lightweight the design
  • Set a Safety Factor upper limit to find where material can be removed
  • Remove material from areas that exceed the Safety Factor upper limit
Generate alternative designs
  • In the Generative Design workspace, create design modifications
  • Remove unnecessary material using a Shape Optimization study
Load Case1 - Results
Result Summary
Result type Sub-result Minimum Maximum
Safety Factor
Safety Factor3.0341.04E+07
Stress
Von Mises4.97E-06 MPa17.043 MPa
1st Principal−9.744 MPa23.283 MPa
3rd Principal−20.24 MPa7.617 MPa
Normal XX−17.222 MPa16.565 MPa
Normal YY−16.448 MPa16.576 MPa
Normal ZZ−14.111 MPa15.152 MPa
Shear XY−2.252 MPa2.272 MPa
Shear YZ−9.236 MPa9.394 MPa
Shear XZ−8.755 MPa9.701 MPa
Displacement
Total0 mm0.93 mm
X−0.018 mm0.018 mm
Y−0.018 mm0.018 mm
Z−0.93 mm4.298E-04 mm
Reaction Force
Total0 N18.12 N
X−6.679 N4.275 N
Y−4.848 N4.645 N
Z−14.999 N17.857 N
Strain
Equivalent9.61E-100.004
1st Principal−2.95E-050.004
3rd Principal−0.004−4.466E-10
Normal XX−0.0020.002
Normal YY−0.0020.002
Normal ZZ−0.0010.001
Shear XY−8.76E-048.836E-04
Shear YZ−0.0040.004
Shear XZ−0.0030.004
Contact Force
Total0 N0 N
X0 N0 N
Y0 N0 N
Z0 N0 N
Safety Factor
Safety Factor
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Stress
Von Mises
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1st Principal
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3rd Principal
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Displacement
Total
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