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List of Learning Modules

Each learning module below contains a step-by-step tutorial that shows details of how to solve a selected problem using ANSYS 12.1. The pedagogical philosophy behind these modules is discussed in this article from the ANSYS Advantage magazine.

Solid Mechanics Concepts Using ANSYS

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[Tensile Bar]

ANSYS 13.0 Workbench

Basic

[Plate With a Hole]

ANSYS 12.1 Workbench

Basic

[Bending of a Curved Beam]

ANSYS 12.1 Workbench

Basic


Finite Element Analysis Using ANSYS Workbench

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[Cantilever Beam]

ANSYS 12.1 Workbench

Basic


[Cantilever Beam Modal Analysis]

ANSYS 12.1 Workbench

Basic

[Plate With a Hole]

ANSYS 12.1 Workbench

Basic


[Plate With a Hole: Optimization]

ANSYS 12.1 Workbench

Basic


[Plane Frame]

ANSYS 12.1 Workbench

Basic


Heat Conduction in a Cylinder

ANSYS 12.1 Workbench

Basic


[2D Steady Conduction in a Rectangular Domain]

ANSYS 12.1 Workbench

Basic

[Stress due to Gravity]

ANSYS 13.0 Workbench

Basic

3D Conduction

ANSYS 13.0 Workbench

Intermediate

Bike Crank

ANSYS 12.1 Workbench

Intermediate


[Modal Analysis of a Wing]

ANSYS 12.1 Workbench

Intermediate


[Linear Column Buckling]

ANSYS 13.0 Workbench

Intermediate


[Wind Turbine Blade]

ANSYS 13.0 Workbench

Intermediate

Nonlinear Deformation

ANSYS 13.0 Workbench

Intermediate

 

[Transient 3D Conduction]

ANSYS 13.0 Workbench

Intermediate


Finite Element Analysis Using ANSYS APDL (These tutorials are no longer being updated)

Two-Dimensional Static Truss

ANSYS 11.0 12.0 APDL

Basic

Plate with a hole

ANSYS 11.0 12.0 APDL

Basic

Three-dimensional bicycle crank

ANSYS 12.0 APDL

Intermediate

Three-dimensional curved beam

ANSYS 11.0 APDL

Intermediate

Vibration analysis of a frame

ANSYS 7.0

Intermediate

Semi-monocoque shell

ANSYS 10.0 APDL

Intermediate

Semi-monocoque shell, Part 2: Parametric study

ANSYS 10.0 APDL

Intermediate

Orthotropic plate with a hole

ANSYS 11.0 12.0 APDL

Intermediate

Disks in point contact

ANSYS 7.1 Classic

Intermediate

Frequently Asked Questions

Learning modules which have not yet been migrated to this space can be found here.

About the ANSYS learning modules

This ANSYS short course consists of a set of learning modules on using ANSYS to solve problems in solid mechanics. The learning modules lead the user through the steps involved in solving a selected set of problems using ANSYS. We not only provide the solution steps but also the rationale behind them. It is worthwhile for the user to understand the underlying concepts as she goes through the learning modules in order to be able to correctly apply ANSYS to other problems. The user would be ill-served by clicking through the learning modules in zombie-mode. Each learning module is followed by problems which are geared towards strengthening and reinforcing the knowledge and understanding gained in the learning modules. Working through the problem sets is an intrinsic part of the learning process and shouldn't be skipped.

These learning modules have been developed by the Swanson Engineering Simulation Program in the Sibley School of Mechanical and Aerospace Engineering at Cornell University. The Swanson Engineering Simulation Program has been established with the goal of integrating computer-based simulations into the mechanical engineering curriculum. This program has been endowed by Dr. John Swanson, the founder of ANSYS Inc. and an alumnus of the Sibley School. The development of these learning modules is being supported by a Faculty Innovation in Teaching award from Cornell University.

What is ANSYS?

ANSYS is a finite-element analysis package used widely in industry to simulate the response of a physical system to structural loading, and thermal and electromagnetic effects. ANSYS uses the finite-element method to solve the underlying governing equations and the associated problem-specific boundary conditions.

How to use these learning modules

These learning modules are designed to be used online and run side-by-side with the ANSYS 12.1 software. After you launch the learning modules and ANSYS, you will have to drag the browser window to the width of the largest image (about 350 pixels). To make best use of screen real estate, move the windows around and resize them so that you approximate this [screen arrangement].

System and software requirements

  • System: Any system that can run ANSYS and a web browser.
  • Screen: Resolution should be at least 1280 x 1024 pixels for optimal viewing. A 17" monitor or larger is recommended.
  • ANSYS version 12.1. These tutorials were created using ANSYS 12.1.
  • Web Browser: These tutorials work best in 5.0 or higher versions of Internet Explorer and Netscape because style sheet support is needed. These tutorials can be used with Netscape 4.x but may not render correctly.

Choose a learning module by selecting from the list at the top of this page

Conventions used

Each learning module begins with a problem specification. A solution can be obtained by following these seven steps:
1. Pre-analysis
2. Geometry
3. Mesh
4. Setup (Physics)
5. Solution
6. Results
7. Verification and Validation
These steps appear at the top of each page of the learning module with the current step bolded.

ANSYS uses cascading menus which are represented as follows:

Main Menu > Preprocessor > Material Props > Material Models ....

This means that in the Main Menu, click on Preprocessor. Then, in the Preprocessor menu that comes up, click on Material Props and so on.

Names of windows are in italics.

Items and options appearing within menus and dialog boxes are purple, italic, and bold.

Text and numbers that need to be entered are indicated in Courier font.

Additional explanations and related discussions are enclosed in a box.

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