Versions Compared

Key

  • This line was added.
  • This line was removed.
  • Formatting was changed.

...

Pre-Analysis & Start Up

Pre-Analysis

First, we need to know if the expansion of the bar is greater than the free space between the bar and the wall, x = 0.002 meters. Below are the equation and the calculated result used for the expansion of the bar.

Now that we know that the deformation due to the change in temperature will be greater than the space between the bar and the wall, we know that there will be a stress on the bar. If the wall was not there, the bar would fully deform to the calculated value above. Since the wall does stop the deformation process, the following equation can be used.

Where Tis the strain contribution from the change in temperature and is the strain contribution from the force imparted by the wall on the bar. This equation can be combined with the first one to make the following.

Substituting , we get the solvable equation

...

  1. Notes that require you to perform an action are colored in blue

  2. General information is colored in black, but does not require any action

  3. Words that are bolded are labels for items found in ANSYS AIM

  4. Most important notes are colored in red


Start-Up

Now that we have the pre-calculations, we are ready begin simulating in ANSYS AIM. Open ANSYS AIM by going to Start > All Apps > ANSYS 18.1 > ANSYS AIM 18.1. Once you are at the starting page of AIM select the Thermal template.

Image Modified

You will be prompted by the Thermal template to either Define new geometry, Import geometry file, or Connect to active CAD session. Select Define new geometry and press Next. For this problem, we will be using the Steady/static calculation type and adding Structural as an additional physic. Select them in the menu and press Finish. The Model Editor will launch automatically.

Image Modified

Image Modified



Go to Step 2: Geometry

Go to all (ANSYS or FLUENT) Learning Modules