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Problem Specification |
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Numerical Solution
The only solution option available in redAnTS is static deformation. Advanced FEA packages will offer solution options such as modal, buckling, etc. Select Static under the Solver menu. This assembles and solves the global matrix. Since this is a small problem with less than 100 elements, this takes very little time. Bigger problems will take much longer for the computer to crunch through. Verify that under Current Settings, the software reports Displacements done. Let's take a look at the nodal displacement values to check that they look plausible.
Nodal Displacements
Under Plotting, select Displacement. The nodal displacements are shown below.
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Does the displacement field satisfy the imposed boundary conditions shown in this figure? Are the largest displacements where you expect them to be? Are the normal displacements zero for the sides for which this condition is imposed?
Deformed Mesh
Let's take a peek at how the elements have deformed under the applied uniaxial tension. Under Plotting, select Deformed mesh. Since the deformations are usually very small, the program asks for a maginification factor to make them more visible in the plot. Enter 500
for the magnification factor and click OK. You can move the legend out of the way by dragging it with the mouse.
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Since the nodal displacements look plausible, let's prod the beast to display various stress and strain components i.e. post-process the results. This will occupy us in step 6. Note that the student version doesn't come with the post-processing module. You'll have to wait until you have developed this module before you can go through step 6. When you are finished with your post-processing module, return to step 6. This will also help you validate your module.
Go to Step 6: Numerical Results