HZ University of Applied Sciences
Simulation of benchseat2Date: zaterdag 31 oktober 2015Designer: Vincent GeleijnseStudy name: Static 1Analysis type: Static
Table of ContentsDescription...............................................1Assumptions.............................................2Model Information.....................................2Study Properties.......................................3Units.........................................................4Material Properties...................................4Loads and Fixtures...................................5Connector Definitions...............................5Contact Information..................................6Mesh Information......................................7Sensor Details..........................................9Resultant Forces.......................................9Beams....................................................10Study Results..........................................10Conclusion..............................................10
DescriptionIn deze stress test laat ik zien wat er gebeurt als er een persoon van 150 kg met één voet in het midden van het zitvlak gaat staan.
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HZ University of Applied Sciences Vincent Geleijnse31-10-2015
Assumptions
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HZ University of Applied Sciences Vincent Geleijnse31-10-2015
Model Information
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HZ University of Applied Sciences Vincent Geleijnse31-10-2015
Model name: benchseat2
Current Configuration: Default
Solid BodiesDocument Name and
Reference Treated As Volumetric Properties Document Path/Date Modified
Boss-Extrude1
Solid Body
Mass:58.2183 kgVolume:0.00727729 m^3
Density:8000 kg/m^3Weight:570.539 N
E:\Google Drive\blok 5 zooi\solidworks\
benchseat2.SLDPRTOct 09 14:16:17 2015
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HZ University of Applied Sciences Vincent Geleijnse31-10-2015
Study PropertiesStudy name Static 1Analysis type StaticMesh type Solid MeshThermal Effect: OnThermal option Include temperature loadsZero strain temperature 298 KelvinInclude fluid pressure effects from SolidWorks Flow Simulation
Off
Solver type FFEPlusInplane Effect: OffSoft Spring: OffInertial Relief: OffIncompatible bonding options AutomaticLarge displacement OffCompute free body forces OnFriction OffUse Adaptive Method: OffResult folder SolidWorks document (E:\Google Drive\blok 5
zooi\solidworks)
UnitsUnit system: SI (MKS)Length/Displacement mmTemperature KelvinAngular velocity Rad/secPressure/Stress N/mm^2 (MPa)
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HZ University of Applied Sciences Vincent Geleijnse31-10-2015
Material PropertiesModel Reference Properties Components
Name: AISI 316 Stainless Steel Sheet (SS)
Model type: Linear Elastic Isotropic
Default failure criterion:
Max von Mises Stress
Yield strength: 172.369 N/mm^2Tensile strength: 580 N/mm^2Elastic modulus: 193000 N/mm^2Poisson's ratio: 0.27
Mass density: 8000 g/cm^3Thermal
expansion coefficient:
1.6e-005 /Kelvin
SolidBody 1(Boss-Extrude1)(benchseat2)
Curve Data:N/A
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HZ University of Applied Sciences Vincent Geleijnse31-10-2015
Loads and FixturesFixture name Fixture Image Fixture Details
Fixed-1
Entities: 3 edge(s)Type: Fixed Geometry
Load name Load Image Load Details
Force-1
Entities: 1 face(s)Type: Apply normal force
Value: 1500 N
Connector DefinitionsNo Data
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HZ University of Applied Sciences Vincent Geleijnse31-10-2015
Contact InformationNo Data
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HZ University of Applied Sciences Vincent Geleijnse31-10-2015
Mesh InformationMesh type Solid MeshMesher Used: Curvature based meshJacobian points 4 PointsMaximum element size 8.24696 mmMinimum element size 1.64939 mmMesh Quality High
Mesh Information - DetailsTotal Nodes 427684Total Elements 213556Maximum Aspect Ratio 7.9135% of elements with Aspect Ratio < 3 83.8% of elements with Aspect Ratio > 10 0% of distorted elements(Jacobian) 0Time to complete mesh(hh;mm;ss): 00:00:33Computer name: VINCENTPC
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HZ University of Applied Sciences Vincent Geleijnse31-10-2015
Mesh Control Information:
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HZ University of Applied Sciences Vincent Geleijnse31-10-2015
Mesh Control Name Mesh Control Image Mesh Control Details
Control-1
Entities: 1 face(s)Units: mmSize: 10.3071
Ratio: 1.5
Control-2
Entities: 1 edge(s)Units: mmSize: 2.06157
Ratio: 1.5
Sensor DetailsNo Data
Resultant ForcesNo Data
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HZ University of Applied Sciences Vincent Geleijnse31-10-2015
BeamsNo Data
Study Results
Name Type Min MaxStress1 VON: von Mises Stress 0 N/mm^2 (MPa)
Node: 10 N/mm^2 (MPa)Node: 1
benchseat2-Static 1-Stress-Stress1
Name Type Min MaxDisplacement1 URES: Resultant Displacement 0 mm
Node: 10 mmNode: 1
benchseat2-Static 1-Displacement-Displacement1
Name Type Min MaxStrain1 ESTRN: Equivalent Strain 0
Element: 10Element: 1
benchseat2-Static 1-Strain-Strain1
Name TypeDisplacement1{1} Deformed Shape
benchseat2-Static 1-Displacement-Displacement1{1}
Conclusion
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