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TRANSCRIPT
Simulation Report Template
P14042 Una Crutch
RIT MSD
P14042 Una Crutch
RIT MSD
P14042 Una Crutch
12/11/2013
Simulation of Shaft
Date: Wednesday, December 11, 2013Designer: P14042 Una Crutch
Study name: Static Study
Analysis type: Static
Table of ContentsDescription1Assumptions2Model Information2Study Properties3Units3Material Properties4Loads and Fixtures5Mesh Information6Resultant Forces7Study Results8Conclusion12
Description
This report details a Static Finite Element Analysis for the Shaft on the Una Crutch.
Assumptions
Comments: The sum of the forces equals zero and neglecting friction at the top and base of the part.
Model Information
Model name: Shaft
Current Configuration: Default
Solid Bodies
Document Name and Reference
Treated As
Volumetric Properties
Document Path/Date Modified
LPattern1
Solid Body
Mass:0.269679 kg
Volume:9.98813e-005 m^3
Density:2700 kg/m^3
Weight:2.64286 N
F:\RIT 2013-14\Fall Semister\MSD 1\new_MSD 1\public\CAD\NA\Shaft.SLDPRT
Dec 10 18:13:08 2013
Study Properties
Study name
Static Study
Analysis type
Static
Mesh type
Solid Mesh
Thermal Effect:
On
Thermal option
Include temperature loads
Zero strain temperature
298 Kelvin
Include fluid pressure effects from SolidWorks Flow Simulation
Off
Solver type
FFEPlus
Inplane Effect:
Off
Soft Spring:
Off
Inertial Relief:
Off
Incompatible bonding options
Automatic
Large displacement
Off
Compute free body forces
On
Friction
Off
Use Adaptive Method:
Off
Result folder
SolidWorks document (F:\RIT 2013-14\Fall Semister\MSD 1\new_MSD 1\public\CAD\NA)
Units
Unit system:
SI (MKS)
Length/Displacement
mm
Temperature
Kelvin
Angular velocity
Rad/sec
Pressure/Stress
N/m^2
Material Properties
Model Reference
Properties
Components
Name:
6061-T6 (SS)
Model type:
Linear Elastic Isotropic
Default failure criterion:
Max von Mises Stress
Yield strength:
2.75e+008 N/m^2
Tensile strength:
3.1e+008 N/m^2
Elastic modulus:
6.9e+010 N/m^2
Poisson's ratio:
0.33
Mass density:
2700 kg/m^3
Shear modulus:
2.6e+010 N/m^2
Thermal expansion coefficient:
2.4e-005 /Kelvin
SolidBody 1(LPattern1)(Shaft)
Curve Data:N/A
Loads and Fixtures
Fixture name
Fixture Image
Fixture Details
Fixed-1
Entities:
1 face(s)
Type:
Fixed Geometry
Resultant Forces
Components
X
Y
Z
Resultant
Reaction force(N)
-0.108941
1321.5
0.123795
1321.5
Reaction Moment(N·m)
0
0
0
0
Roller/Slider-3
Entities:
1 face(s)
Type:
Roller/Slider
Resultant Forces
Components
X
Y
Z
Resultant
Reaction force(N)
-0.0234428
-0.231857
0.0541629
0.23925
Reaction Moment(N·m)
0
0
0
0
Load name
Load Image
Load Details
Force-1
Entities:
1 face(s), 1 Solid Body (s)
Type:
Apply normal force
Value:
300 lbf
Comments:
Load is transmitted to top of shaft Pin at base of shaft and roller at top of shaft
Mesh Information
Mesh type
Solid Mesh
Mesher Used:
Curvature based mesh
Jacobian points
4 Points
Maximum element size
0 in
Minimum element size
0 in
Mesh Quality
High
Mesh Information - Details
Total Nodes
5893
Total Elements
2838
Maximum Aspect Ratio
9.8965
% of elements with Aspect Ratio < 3
89.5
% of elements with Aspect Ratio > 10
0
% of distorted elements(Jacobian)
0
Time to complete mesh(hh;mm;ss):
00:00:02
Computer name:
ME-HP21
Resultant ForcesReaction Forces
Selection set
Units
Sum X
Sum Y
Sum Z
Resultant
Entire Model
N
-0.132379
1321.27
0.177964
1321.27
Reaction Moments
Selection set
Units
Sum X
Sum Y
Sum Z
Resultant
Entire Model
N·m
0
0
0
0
Study Results
Name
Type
Min
Max
Stress1
VON: von Mises Stress
90.976 N/m^2
Node: 4114
4.03222e+007 N/m^2
Node: 4931
Shaft-Static Study-Stress-Stress1
Name
Type
Min
Max
Displacement1
URES: Resultant Displacement
0 mm
Node: 121
0.0981703 mm
Node: 171
Shaft-Static Study-Displacement-Displacement1
Name
Type
Min
Max
Strain1
ESTRN: Equivalent Strain
1.33314e-009
Element: 713
0.000378516
Element: 2134
Shaft-Static Study-Strain-Strain1
Name
Type
Displacement1{1}
Deformed Shape
Shaft-Static Study-Displacement-Displacement1{1}
Name
Type
Min
Max
Factor of Safety1
Automatic
6.82007
Node: 4931
3.02278e+006
Node: 4114
Shaft-Static Study-Factor of Safety-Factor of Safety1
Conclusion
Comments:
Shaft will not fail.
Analyzed with SolidWorks Simulation
Simulation of Shaft
1
Analyzed with SolidWorks Simulation
Simulation of Shaft
2