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Simulation of Vibe standDate: Tuesday, March 4, 2014Designer: SolidworksStudy name: Frequency 1Analysis type: Frequency
Table of ContentsDescription...............................................1Assumptions.............................................2Model Information.....................................2Study Properties.......................................3Units.........................................................3Material Properties...................................4Loads and Fixtures...................................4Connector Definitions...............................5Contact Information..................................5Mesh Information......................................6Sensor Details..........................................7Study Results............................................8Conclusion..............................................13
DescriptionNo Data
Analyzed with SolidWorks Simulation Simulation of Vibe stand 1
Assumptions
Model Information
Model name: Vibe stand
Current Configuration: Default<As Machined>
Solid BodiesDocument Name and
Reference Treated As Volumetric Properties Document Path/Date Modified
CirPattern5
Solid Body
Mass:5.70453 kgVolume:0.000740848
m^3Density:7700 kg/m^3
Weight:55.9044 N
C:\Users\Chris\SkyDrive\Documents\
Senior Design\Models\Vibe
stand.SLDPRTFeb 28 20:09:58 2014
Analyzed with SolidWorks Simulation Simulation of Vibe stand 2
Study PropertiesStudy name Frequency 1Analysis type FrequencyMesh type Solid MeshNumber of frequencies 10Solver type AutomaticSoft Spring: OffIncompatible bonding options AutomaticThermal option Include temperature loadsZero strain temperature 298 KelvinInclude fluid pressure effects from SolidWorks Flow Simulation
Off
Result folder SolidWorks document (C:\Users\Chris\SkyDrive\Documents\Senior Design\Models)
UnitsUnit system: SI (MKS)Length/Displacement mmTemperature KelvinAngular velocity Rad/secPressure/Stress N/m^2
Analyzed with SolidWorks Simulation Simulation of Vibe stand 3
Material PropertiesModel Reference Properties Components
Name: Alloy SteelModel type: Linear Elastic
IsotropicDefault failure
criterion:Max von Mises Stress
Yield strength: 6.20422e+008 N/m^2
Tensile strength: 7.23826e+008 N/m^2
Mass density: 7700 kg/m^3Elastic modulus: 2.1e+011 N/m^2Poisson's ratio: 0.28
Thermal expansion
coefficient:
1.3e-005 /Kelvin
SolidBody 1(CirPattern5)(Vibe stand)
Curve Data:N/A
Analyzed with SolidWorks Simulation Simulation of Vibe stand 4
Loads and FixturesFixture name Fixture Image Fixture Details
Fixed-1
Entities: 1 face(s)Type: Fixed Geometry
Load name Load Image Load Details
Gravity-1
Reference: Front PlaneValues: 0 0 -9.81
Units: SI
Connector DefinitionsNo Data
Contact InformationNo Data
Analyzed with SolidWorks Simulation Simulation of Vibe stand 5
Mesh InformationMesh type Solid MeshMesher Used: Standard meshAutomatic Transition: OffInclude Mesh Auto Loops: OffJacobian points 4 PointsElement Size 0.566936 inTolerance 0.0283468 inMesh Quality High
Mesh Information - DetailsTotal Nodes 17111Total Elements 8660Maximum Aspect Ratio 15.734% of elements with Aspect Ratio < 3 76% of elements with Aspect Ratio > 10 0.0924% of distorted elements(Jacobian) 0Time to complete mesh(hh;mm;ss): 00:00:02Computer name: CHRIS_HP_ENVY
Analyzed with SolidWorks Simulation Simulation of Vibe stand 6
Study Results
Name Type Min MaxAmplitude1 AMPRES: Resultant Amplitude
Plot for Mode Shape: 1(Value = 888.527 Hz)
0Node: 1
0.806925Node: 926
Vibe stand-Frequency 1-Amplitude-Amplitude1
Name Type Min MaxAmplitude2 AMPRES: Resultant Amplitude
Plot for Mode Shape: 2(Value = 1233.78 Hz)
0Node: 1
1.16957Node: 1554
Analyzed with SolidWorks Simulation Simulation of Vibe stand 8
Name Type Min Max
Vibe stand-Frequency 1-Amplitude-Amplitude2
Name Type Min MaxAmplitude3 AMPRES: Resultant Amplitude
Plot for Mode Shape: 3(Value = 1234.71 Hz)
0Node: 1
1.16883Node: 1537
Analyzed with SolidWorks Simulation Simulation of Vibe stand 9
Name Type Min Max
Vibe stand-Frequency 1-Amplitude-Amplitude3
Name Type Min MaxAmplitude4 AMPRES: Resultant Amplitude
Plot for Mode Shape: 4(Value = 1747.82 Hz)
0Node: 1
1.15739Node: 1521
Analyzed with SolidWorks Simulation Simulation of Vibe stand 10
Name Type Min Max
Vibe stand-Frequency 1-Amplitude-Amplitude4
Name Type Min MaxAmplitude5 AMPRES: Resultant Amplitude
Plot for Mode Shape: 5(Value = 1929.18 Hz)
0Node: 1
1.17983Node: 1504
Analyzed with SolidWorks Simulation Simulation of Vibe stand 11
Name Type Min Max
Vibe stand-Frequency 1-Amplitude-Amplitude5
Mode ListFrequency Number Rad/sec Hertz Seconds
1 5582.8 888.53 0.0011255
2 7752.1 1233.8 0.00081052
3 7757.9 1234.7 0.00080991
4 10982 1747.8 0.00057214
5 12121 1929.2 0.00051835
6 13419 2135.7 0.00046823
7 13423 2136.3 0.0004681
8 13480 2145.4 0.00046612
9 14080 2240.8 0.00044626
10 17091 2720.1 0.00036764
Mass Participation (Normalized)
Analyzed with SolidWorks Simulation Simulation of Vibe stand 12
Mode Number Frequency(Hertz)
X direction Y direction Z direction
1 888.53 1.3775e-007 6.3147e-006 7.6502e-009
2 1233.8 0.092587 0.18044 1.3677e-008
3 1234.7 0.1807 0.092408 1.4528e-009
4 1747.8 1.5728e-007 2.6687e-006 1.4448e-007
5 1929.2 3.4003e-006 3.7526e-008 0.48951
6 2135.7 0.00011153 0.024695 2.1229e-006
7 2136.3 0.025079 0.00011402 4.0217e-006
8 2145.4 1.7706e-005 3.6413e-006 5.2727e-007
9 2240.8 1.7514e-007 2.613e-007 2.9576e-007
10 2720.1 0.49699 0.025362 1.9118e-006Sum X = 0.79549 Sum Y = 0.32303 Sum Z = 0.48951
Conclusion
Analyzed with SolidWorks Simulation Simulation of Vibe stand 13