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Author: John Singleton and Rajesh Bhaskaran, Cornell University
{color:#ff0000}{*}Problem Specification{*}{color}
[1. University Problem Specification 1. Pre-Analysis & Start-Up |ANSYS 12 - Cantilever Beam Modal Analysis - Pre-Analysis & Start-Up]
[ 2. Geometry|ANSYS 12 - Cantilever Beam Modal Analysis - Geometry]
[3. Mesh|ANSYS 12 - Cantilever Beam Modal Analysis - Mesh]
[4. Setup (Physics)|ANSYS 12 - Cantilever Beam Modal Analysis - Setup (Physics)]
[5. Solution|ANSYS 12 - Cantilever Beam Modal Analysis - Solution]
[6. Results|ANSYS 12 - Cantilever Beam Modal Analysis - Results]
[7. Verification and Validation|ANSYS 12 - Cantilever Beam Modal Analysis - Verification & Validation]
[Exercises|ANSYS 12 - Cantilever Beam Modal Analysis - Exercises]
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{note|title='blahblah'}Prior, to attempting this tutorial, you must complete the [Cantilever Beam Tutorial|ANSYS 12 - Cantilever Beam - Problem Specification] . If you have not yet completed the [Cantilever Beam Tutorial|ANSYS 12 - Cantilever Beam - Problem Specification], please do so now.{note}
h2. Problem Specification
Consider an aluminum beam that is clamped at one end, with the following dimensions.
|| Length | 4 m ||
|| Width | 0.346 m ||
|| Height | 0.346 m ||
The aluminum used for the beam has the following material properties.
|| Density | 2,700 kg/m^3 ||
|| Youngs Modulus | 70x10^9 Pa ||
|| Poisson Ratio | 0.35 ||
Using ANSYS Workbench find the first six natural frequencies of the beam.
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[Go to Step 1: Pre-Analysis and Start-up|ANSYS 12 - Cantilever Beam Modal Analysis - Pre-Analysis & Start-Up]\\
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[See and rate the complete Learning Module|ANSYS 12 - Cantilever Beam Modal Analysis - Problem Specification]\\
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[Go to all ANSYS Learning Modules|ANSYS Learning Modules]Geometry 3. Mesh 4. Setup (Physics) 5. Solution 6. Results 7. Verification and Validation Exercises |
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Prior, to attempting this tutorial, you must complete the Cantilever Beam Tutorial . If you have not yet completed the Cantilever Beam Tutorial, please do so now. |
Problem Specification
Consider an aluminum beam that is clamped at one end, with the following dimensions.
Length | 4 m |
---|
Width | 0.346 m |
---|
Height | 0.346 m |
---|
The aluminum used for the beam has the following material properties.
Density | 2,700 kg/m^3 |
---|
Youngs Modulus | 70x10^9 Pa |
---|
Poisson Ratio | 0.35 |
---|
Using ANSYS Workbench find the first six natural frequencies of the beam.
Go to Step 1: Pre-Analysis and Start-up
See and rate the complete Learning Module
Go to all ANSYS Learning Modules