Container Study 1 1
16
Simulation of container Date: Saturday, July 14, 2012 Designer: Solidworks Study name: Study 1 Analysis type: Static Table of Contents Description........................1 Assumptions........................2 Model Information..................2 Study Properties...................3 Units..............................4 Material Properties................4 Loads and Fixtures.................5 Connector Definitions..............5 Contact Information................6 Mesh Information...................7 Sensor Details.....................8 Resultant Forces...................9 Beams..............................9 Study Results.....................10 Conclusion........................13 Description No Data Analyzed with SolidWorks Simulation Simulation of container 1
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Estudio de Contenedor
Transcript of Container Study 1 1
Simulation of containerDate: Saturday, July 14, 2012Designer: SolidworksStudy name: Study 1Analysis type: Static
Table of ContentsDescription...............................................1
Assumptions.............................................2
Model Information.....................................2
Study Properties.......................................3
Units.........................................................4
Material Properties...................................4
Loads and Fixtures...................................5
Connector Definitions...............................5
Contact Information..................................6
Mesh Information......................................7
Sensor Details..........................................8
Resultant Forces.......................................9
Beams......................................................9
Study Results..........................................10
Conclusion..............................................13
DescriptionNo Data
Analyzed with SolidWorks Simulation Simulation of container 1
Assumptions
Analyzed with SolidWorks Simulation Simulation of container 2
Analyzed with SolidWorks Simulation Simulation of container 3
Model Information
Analyzed with SolidWorks Simulation Simulation of container 4
Model name: container
Current Configuration: Default
Solid BodiesDocument Name and
ReferenceTreated As Volumetric Properties Document Path/Date
ModifiedCut-Extrude1
Solid Body
Mass:0.325155 kgVolume:0.000270962
m^3Density:1200 kg/m^3
Weight:3.18652 N
C:\Users\noah1999\Desktop\Summer 2012\Solidworks\cylinder.SLDPRT
Jul 14 09:41:44 2012
7/16-20 Tapped Hole1 Solid Body
Mass:0.110827 kgVolume:9.23558e-005
m^3Density:1200 kg/m^3
Weight:1.0861 N
C:\Users\noah1999\Desktop\Summer
2012\Solidworks\end cap.SLDPRT
Jul 14 11:01:39 2012
7/16-20 Tapped Hole1 Solid Body
Mass:0.110827 kgVolume:9.23558e-005
m^3Density:1200 kg/m^3
Weight:1.0861 N
C:\Users\noah1999\Desktop\Summer
2012\Solidworks\end cap.SLDPRT
Jul 14 11:01:39 2012
Analyzed with SolidWorks Simulation Simulation of container 5
Study PropertiesStudy name Study 1
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 (C:\Users\noah1999\Desktop\Summer 2012\Solidworks)
UnitsUnit system: SI (MKS)
Length/Displacement mm
Temperature Kelvin
Angular velocity Rad/sec
Pressure/Stress N/m^2
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Material PropertiesModel Reference Properties Components
Name: Acrylic (Medium-high impact)
Model type: Linear Elastic Isotropic
Default failure criterion:
Max von Mises Stress
Yield strength: 4.5e+007 N/m^2Tensile strength: 7.3e+007 N/m^2Elastic modulus: 3e+009 N/m^2Poisson's ratio: 0.35
Mass density: 1200 kg/m^3Shear modulus: 8.9e+008 N/m^2
Thermal expansion
coefficient:
5.2e-005 /Kelvin
SolidBody 1(Cut-Extrude1)(cylinder-1),SolidBody 1(7/16-20 Tapped Hole1)(end cap-1),SolidBody 1(7/16-20 Tapped Hole1)(end cap-2)
Curve Data:N/A
Analyzed with SolidWorks Simulation Simulation of container 7
Loads and FixturesFixture name
Fixture Image Fixture Details
Fixed-1
Entities: 1 face(s)Type: Fixed Geometry
Resultant ForcesComponents X Y Z Resultant
Reaction force(N) 0.638952 6.42787 -1.86494 6.72337Reaction Moment(N-
m)0 0 0 0
Load name Load Image Load Details
Gravity-1
Reference: Top PlaneValues: 0 0 -9.81
Units: SI
Pressure-1
Entities: 3 face(s)Type: Normal to selected
faceValue: 63Units: psi
Analyzed with SolidWorks Simulation Simulation of container 8
Connector DefinitionsNo Data
Contact Information
Contact Contact Image Contact Properties
Global Contact
Type: BondedComponents: 1
component(s)Options: Compatible
mesh
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Mesh InformationMesh type Solid Mesh
Mesher Used: Standard mesh
Automatic Transition: Off
Include Mesh Auto Loops: Off
Jacobian points 4 Points
Element Size 0.00855427 m
Tolerance 0.000427713 m
Mesh Quality High
Remesh failed parts with incompatible mesh
Off
Mesh Information - DetailsTotal Nodes 21530
Total Elements 11407
Maximum Aspect Ratio 23.079
% of elements with Aspect Ratio < 3 74.8
% of elements with Aspect Ratio > 10 0.324
% of distorted elements(Jacobian) 0
Time to complete mesh(hh;mm;ss): 00:00:12
Computer name: BICYCLE
Analyzed with SolidWorks Simulation Simulation of container 10
Sensor Details
Sensor name Location Sensor Details
Stress1
Value : 4.89087 ksiEntities :Result :StressComponent :VON: von Mises StressCriterion :Model MaxStep Criterion : Across all StepsStep No.:1Alert Value: NA
Analyzed with SolidWorks Simulation Simulation of container 11
Resultant Forces
Reaction ForcesSelection set
Units Sum XSum Y Sum Z Resultant
Entire Model N 0.638952 6.42787 -1.86494 6.72337
Reaction MomentsSelection set
Units Sum XSum Y Sum Z Resultant
Entire Model N-m 0 0 0 0
BeamsNo Data
Analyzed with SolidWorks Simulation Simulation of container 12
Study Results
Name Type Min MaxStress1 VON: von Mises Stress 6.48245e-006 ksi
Node: 66854.89087 ksiNode: 21045
container-Study 1-Stress-Stress1
Name Type Min MaxDisplacement1 URES: Resultant Displacement 0 mm
Node: 101.06686 mmNode: 21100
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Name Type Min Max
container-Study 1-Displacement-Displacement1
Name Type Min MaxStrain1 ESTRN: Equivalent Strain 1.46274e-008
Element: 18380.00581405 Element: 5556
Analyzed with SolidWorks Simulation Simulation of container 14
Name Type Min Max
container-Study 1-Strain-Strain1
Name TypeDisplacement1{1} Deformed Shape
Analyzed with SolidWorks Simulation Simulation of container 15
Name Type
container-Study 1-Displacement-Displacement1{1}
Conclusion
Analyzed with SolidWorks Simulation Simulation of container 16
