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Author: Rajesh Bhaskaran, CornellUniversity Problem Specification |
Problem Specification
Consider the semi-monocoque shell problem analyzed in a previous tutorial. Redo the problem changing only the number of stiffeners in the x-direction. For the quarter-plate, increase the number of x-stiffeners to 3 as shown below; previously, we had 2. Compare the displacement and stress values for the new and old cases and comment on the differences and/or similarities.
We'll play smart and avoid plodding through the solution procedure from scratch by using ANSYS capabilities for performing parametric studies.
Go to Step 1: Create input file
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{color:#ff0000}{*}Problem Specification{*}{color}\\
[1. Create input file|ANSYS - Semi-Monocoque Shell, Part 2 - Step 1]\\
[2. Modify and read input file|ANSYS - Semi-Monocoque Shell, Part 2 - Step 2]
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h2. Problem Specification
Consider the [semi-monocoque shell|ANSYS - Semi-monocoque shell - Problem Specification] problem analyzed in a previous tutorial. Redo the problem changing only the number of stiffeners in the _x_\-direction. For the quarter-plate, increase the number of x-stiffeners to *3* as shown below; previously, we had 2. Compare the displacement and stress values for the new and old cases and comment on the differences and/or similarities.
!geometry2.jpg!
We'll play smart and avoid plodding through the solution procedure from scratch by using ANSYS capabilities for performing parametric studies.
Go to [Step 1: Create input file|ANSYS - Semi-Monocoque Shell, Part 2 - Step 1]
[See and rate the complete Learning Module|ANSYS - Semi-Monocoque Shell, Part 2]
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