Crank Shaft Stress Analysis Solid Works
Transcript of Crank Shaft Stress Analysis Solid Works
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Analyzed with SolidWorks Simulation Simulation of Part1 1
Simulation of Part1
Date: Sunday, October 26, 2014Designer: SolidworksStudy name:CrankAnalysis type:Static
Table of ContentsDescription ............................................ 1
Assumptions .......................................... 2
Model Information ................................... 2
Study Properties ..................................... 3
Units ................................................... 3
Material Properties .................................. 4
Loads and Fixtures................................... 5
Connector Definitions ............................... 5
Contact Information ................................. 5
Mesh Information .................................... 6
Sensor Details ........................................ 7
Resultant Forces ..................................... 7
Beams .................................................. 8
Study Results ......................................... 9
Conclusion .......................................... 12
DescriptionNo Data
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Analyzed with SolidWorks Simulation Simulation of Part1 2
Assumptions
Model Information
Model name: Part1Current Configuration: Default
Solid BodiesDocument Name and
ReferenceTreated As Volumetric Properties
Document Path/DateModified
Split Line2
Solid Body
Mass:0.507679 kg
Volume:6.59323e-005 m^3Density:7700 kg/m^3
Weight:4.97525 N
C:\Users\TEMP\Part1.SLDPRT
Oct 26 17:56:19 2014
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Analyzed with SolidWorks Simulation Simulation of Part1 3
Study PropertiesStudy name Crank
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 SolidWorksFlow Simulation
Off
Solver type FFEPlus
Inplane Effect: Off
Soft Spring: Off
Inertial Relief: Off
Incompatible bonding options AutomaticLarge displacement Off
Compute free body forces On
Friction Off
Use Adaptive Method: Off
Result folder SolidWorks document (C:\Users\TEMP)
UnitsUnit system: SI (MKS)
Length/Displacement mm
Temperature Kelvin
Angular velocity Rad/sec
Pressure/Stress N/m^2
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Analyzed with SolidWorks Simulation Simulation of Part1 4
Material Properties
Model Reference Properties Components
Name: Alloy SteelModel type: Linear Elastic Isotropic
Default failurecriterion:
Max von Mises Stress
Yield strength: 6.20422e+008 N/m^2Tensile strength: 7.23826e+008 N/m^2Elastic modulus: 2.1e+011 N/m^2
Poisson's ratio: 0.28Mass density: 7700 kg/m^3
Shear modulus: 7.9e+010 N/m^2Thermal expansion
coefficient:1.3e-005 /Kelvin
SolidBody 1(SplitLine2)(Part1)
Curve Data:N/A
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Analyzed with SolidWorks Simulation Simulation of Part1 5
Loads and Fixtures
Fixture name Fixture Image Fixture Details
Fixed-1
Entities: 1 face(s)Type: Fixed Geometry
Resultant ForcesComponents X Y Z Resultant
Reaction force(N) 0.342072 1334.56 0.129517 1334.56
Reaction Moment(Nm) 0 0 0 0
Load name Load Image Load Details
Remote Load(Direct
transfer)-1
Entities: 1 face(s)Type: Load (Direct transfer)
Coordinate System: Coordinate System1Force Values: ---, -300, --- lbf
Moment Values: ---, ---, --- NmReference coordinates: 0 -0.375 1.375 in
Components transferred: Force
Connector DefinitionsNo Data
Contact InformationNo Data
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Analyzed with SolidWorks Simulation Simulation of Part1 6
Mesh InformationMesh type Solid Mesh
Mesher Used: Standard mesh
Automatic Transition: Off
Include Mesh Auto Loops: Off
Jacobian points 4 Points
Element Size 0.159101 in
Tolerance 0.00795503 in
Mesh Quality High
Mesh Information - Details
Total Nodes 12927
Total Elements 7750
Maximum Aspect Ratio 3.8503
% of elements with Aspect Ratio < 3 99.9
% of elements with Aspect Ratio > 10 0
% of distorted elements(Jacobian) 0
Time to complete mesh(hh;mm;ss): 00:00:01
Computer name: CR4404-171
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Analyzed with SolidWorks Simulation Simulation of Part1 7
Sensor DetailsNo Data
Resultant Forces
Reaction ForcesSelection set Units Sum X Sum Y Sum Z Resultant
Entire Model N 0.342072 1334.56 0.129517 1334.56
Reaction MomentsSelection set Units Sum X Sum Y Sum Z Resultant
Entire Model Nm 0 0 0 0
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Analyzed with SolidWorks Simulation Simulation of Part1 8
BeamsNo Data
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Analyzed with SolidWorks Simulation Simulation of Part1 9
Study Results
Name Type Min Max
Stress1 VON: von Mises Stress 0.0317087 ksiNode: 10229
47.351 ksiNode: 395
Part1-Crank-Stress-Stress1
Name Type Min Max
Displacement1 URES: Resultant Displacement 0 inNode: 96
0.163935 inNode: 3
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Analyzed with SolidWorks Simulation Simulation of Part1 10
Part1-Crank-Displacement-Displacement1
Name Type Min Max
Strain1 ESTRN: Equivalent Strain 4.39229e-006Element: 3418
0.00119938Element: 7470
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Analyzed with SolidWorks Simulation Simulation of Part1 11
Part1-Crank-Strain-Strain1
Name Type
Displacement1{1} Deformed Shape
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Part1-Crank-Displacement-Displacement1{1}
Conclusion