Recent Developments in Electro-Mechanical Machining
natural frequency-natural frequency-1
1. Lovely Professional University
Company Address Line 2]
Phone: 9803460682
Analyzed with SolidWorks Simulation Simulation of natural frequency 1
Simulation of natural
frequency
Date: 16 November 2012
Designer: Gopi Krishna
Study name: natural frequency
Analysis type: Frequency
Table of Contents
Description ..........................................2
Assumptions .........................................3
Model Information ..................................3
Study Properties ....................................6
Units..................................................6
Material Properties .................................7
Loads and Fixtures..................................7
Connector Definitions ..............................8
Contact Information................................8
Mesh Information ...................................9
Sensor Details ..................................... 11
Study Results ...................................... 12
2. Lovely Professional University Gopi Krishna
16-11-2012
Analyzed with SolidWorks Simulation Simulation of natural frequency 2
Description
No Data
3. Lovely Professional University Gopi Krishna
16-11-2012
Analyzed with SolidWorks Simulation Simulation of natural frequency 3
Assumptions
Model Information
4. Lovely Professional University Gopi Krishna
16-11-2012
Analyzed with SolidWorks Simulation Simulation of natural frequency 4
Model name: natural frequency
Current Configuration: Default
Solid Bodies
Document Name and
Reference
Treated As Volumetric Properties
Document Path/Date
Modified
5. Lovely Professional University Gopi Krishna
16-11-2012
Analyzed with SolidWorks Simulation Simulation of natural frequency 5
Split Line1
Solid Body
Mass:2.91032 kg
Volume:0.000368396 m^3
Density:7900 kg/m^3
Weight:28.5212 N
c:program
filessolidworks
corpsolidworkssimulatio
nExamplesoverender
shaft.sldprt
Sep 17 20:21:44 2012
Fillet1
Solid Body
Mass:2.18226 kg
Volume:0.000276236 m^3
Density:7900 kg/m^3
Weight:21.3862 N
c:program
filessolidworks
corpsolidworkssimulatio
nExamplespb
bearing_1.50 bore.sldprt
Sep 17 20:21:48 2012
Fillet1
Solid Body
Mass:2.18226 kg
Volume:0.000276236 m^3
Density:7900 kg/m^3
Weight:21.3862 N
c:program
filessolidworks
corpsolidworkssimulatio
nExamplespb
bearing_1.50 bore.sldprt
Sep 17 20:21:48 2012
6. Lovely Professional University Gopi Krishna
16-11-2012
Analyzed with SolidWorks Simulation Simulation of natural frequency 6
Study Properties
Study name natural frequency
Analysis type Frequency
Mesh type Solid Mesh
Number of frequencies 5
Solver type FFEPlus
Soft Spring: Off
Incompatible bonding options Automatic
Thermal option Include temperature loads
Zero strain temperature 298 Kelvin
Include fluid pressure effects from SolidWorks
Flow Simulation
Off
Result folder SolidWorks document
(C:UsersxpsDocumentssoftware directorynatural
frequency)
Units
Unit system: SI (MKS)
Length/Displacement mm
Temperature Kelvin
Angular velocity Rad/sec
Pressure/Stress N/m^2
7. Lovely Professional University Gopi Krishna
16-11-2012
Analyzed with SolidWorks Simulation Simulation of natural frequency 7
Material Properties
Model Reference Properties Components
Name: AISI 1020
Model type: Linear Elastic Isotropic
Default failure
criterion:
Max von Mises Stress
Yield strength: 3.51571e+008 N/m^2
Tensile strength: 4.20507e+008 N/m^2
Mass density: 7900 kg/m^3
Elastic modulus: 2e+011 N/m^2
Poisson's ratio: 0.29
Thermal expansion
coefficient:
1.5e-005 /Kelvin
SolidBody 1(Split
Line1)(overender shaft-1),
SolidBody 1(Fillet1)(pb
bearing_1.50 bore-1),
SolidBody 1(Fillet1)(pb
bearing_1.50 bore-2)
Curve Data:N/A
Loads and Fixtures
Fixture name Fixture Image Fixture Details
Fixed-1
Entities: 2 face(s)
Type: Fixed Geometry
8. Lovely Professional University Gopi Krishna
16-11-2012
Analyzed with SolidWorks Simulation Simulation of natural frequency 8
Connector Definitions
No Data
Contact Information
Contact Contact Image Contact Properties
Global Contact
Type: Bonded
Components: 1 component(s)
Options: Compatible
mesh
9. Lovely Professional University Gopi Krishna
16-11-2012
Analyzed with SolidWorks Simulation Simulation of natural frequency 9
Mesh Information
Mesh type Solid Mesh
Mesher Used: Standard mesh
Automatic Transition: Off
Include Mesh Auto Loops: On
Jacobian points 4 Points
Element Size 9.73114 mm
Tolerance 0.486557 mm
Mesh Quality High
Remesh failed parts with incompatible mesh Off
Mesh Information - Details
Total Nodes 17010
Total Elements 10406
Maximum Aspect Ratio 7.2451
% of elements with Aspect Ratio < 3 97.4
% of elements with Aspect Ratio > 10 0
% of distorted elements(Jacobian) 0
Time to complete mesh(hh;mm;ss): 00:00:04
Computer name: XPS_HUNTER
10. Lovely Professional University Gopi Krishna
16-11-2012
Analyzed with SolidWorks Simulation Simulation of natural frequency 10
11. Lovely Professional University Gopi Krishna
16-11-2012
Analyzed with SolidWorks Simulation Simulation of natural frequency 11
Sensor Details
No Data
12. Lovely Professional University Gopi Krishna
16-11-2012
Analyzed with SolidWorks Simulation Simulation of natural frequency 12
Study Results
Name Type Min Max
Displacement1 URES: Resultant Displacement Plot
for Mode Shape: 1(Value = 3375.2
Hz)
0 mm
Node: 5398
3386.58 mm
Node: 2436
13. Lovely Professional University Gopi Krishna
16-11-2012
Analyzed with SolidWorks Simulation Simulation of natural frequency 13
narequency-natural frequency-Displacement-Displacement1
Name Type Min Max
Displacement2 URES: Resultant Displacement Plot
for Mode Shape: 2(Value = 3396.42
Hz)
0 mm
Node: 5398
1833.87 mm
Node: 439
14. Lovely Professional University Gopi Krishna
16-11-2012
Analyzed with SolidWorks Simulation Simulation of natural frequency 14