ANSYS Mechanical Structural Nonlinearities
| Date | May 14, 2013 - May 16, 2013 (3 days) |
| Location | ANSYS, Inc.
67 South Bedford Street
Suite 202E
Burlington, MA 01803
United States
PHONE: 1-781-229-8900 FAX: 1-781-229-8624
www.ansys.com
info@ansys.com |
| Fee | $1,800 US Dollars |
| Registration | CLICK HERE |
Please register your intent to attend one of our classes as early as possible. Registering is not a commitment to attend but an expression of your interest in attending the class. Payment will not be required until the class is confirmed. Please do not make your travel arrangements until you receive confirmation that the class will be held.
Overview
ANSYS Mechanical Structural Nonlinearities is a training course for engineers that need to perform structural nonlinear analyses using the ANSYS Mechanical. This course is intended for users who have taken the ANSYS Mechanical Introduction course and who are already familiar with the procedures for performing a linear static analysis in ANSYS Mechanical.
After completing the course, students should be able to perform, in ANSYS Mechanical, a nonlinear structural analysis.
Description
The course introduces the nonlinear solution procedure and covers how to setup a structural nonlinear analysis, define nonlinear solution options, and review the nonlinear results. Advanced contact analysis procedures are discussed for simulating contact between two or more solid bodies. In addition, metal plasticity, hyperelasticity (including curve-fitting tools to help translate experimental data to strain energy density function coefficients), how to diagnose non-convergence problems, and how to interface with ANSYS are also covered in the training course.
Prerequisites
- A technical education and background is recommended but an engineering degree is not required.
- Completion of the ANSYS Mechanical Introduction course.
Course Topics Include:
- Structural Nonlinearities
- Advanced Contact
- Metal Plasticity
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- Hyperelasticity
- Nonlinear Diagnostics
- Accessing ANSYS Options
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Each course chapter is followed by "hands-on" workshops and exercises.
More Information:
Recommended Follow-on Courses (which is dependent upon the student's interests and applications)
- Heat Transfer
- Dynamics
- Rigid Body Flexible Body Dynamics
- Using Command Objects
Additional Course Dates and Locations