Versions Compared

Key

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

Include Page
MATLAB Google Analytics
MATLAB Google Analytics
Include Page
redAnTS 1 - Panel
redAnTS 1 - Panel

Introductory redAnTS Tutorial

Panel

Rajesh Bhaskaran
Mechanical and Aerospace Engineering
Cornell University

{*}Problem Specification|redAnTS TUTORIAL 1 Problem Specification]
Step 1: Start-Up & Preliminary Set-Up
Step 2: Generate Finite-Element Model
Step 3: Specify Inputs
Step 4: Assemble and Solve Global System
Step 5: Post-Process the Solution

...

This is an introductory tutorial on the redAnTS finite-element analysis (FEA) toolbox that runs within MATLAB. After the toolbox is installed, it can be called from MATLAB by typing redAnTS at the MATLAB prompt. Since, as FEA babies, we've got to learn to crawl before we can walk, this This tutorial takes you through the steps for solving a simple problem with a known solution from elementary theory. This is handy since we can validate the FEA solution by comparing it with the corresponding theoretical result. After you have done a number of FEA solutions for basic problems and validated the results against theory or handbook values, you'll be off running and ready to tackle more complex problems that don't readily yield to paper-and-pencil calculations. (But don't throw the pencil out since it is absolutely essential to verify the computational results with back-of-the-envelope calculations. Consider this as advice from somebody who has been bitten many times in uncomfortable parts of the anatomy by easily trusting results that the computer spits out.)

Basic familiarity with MATLAB is assumed; so keep your MATLAB wits around as you indulge in this tutorial. Happy computing!

Problem Specification

The humble rectangular block shown below is under uniaxial tension. Note the dimensions of the block. The applied normal traction on faces with normals parallel to x' is 75 MPa. The Young's modulus of the material is 200 GPa and the Poisson ratio is 0.3. We'll assume that plane stress conditions apply.

Image RemovedImage Added

We'll employ friendly redAnTS to solve this problem using FEA. We'll plot various components of stress and strain for the block and compare them with theory.

...

Solution

...

As diligent students of solid mechanics, we know that since the block is in uniaxial tension, it should have a homogeneous state of stress and strain i.e. the stress and strain at every point in the block is identical. Yup, couldn't get simpler than that! The principal stress σ11= 75 MPa.

...

Steps

The FEA solution is divided into the following steps:

  • Step 1: Pre-Analysis & Start-up and preliminary set-upUp
  • Step 2: Generate finite-element modelGeometry
  • Step 3: Specify inputsMesh
  • Step 4: Assemble and solve global systemSetup (Physics)
  • Step 5: Post-process the solution: Solution
  • Step 6: Results
  • Step 7: Verification and Validation

Let's dive into step 1 without further ado.

Go to Step 1: Start-up and preliminary set-upPre-Analysis & Start-Up

Go to all MATLAB Learning Modules