Training Course Descriptions
Obtaining a Converged Solution
with Abaqus
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Download an overview
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The registration deadline is January 30; an additional fee of $50 per person will be applied after this date. |
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 Now offered in-person and online simultaneously as SIMULCAST training Pick the option that best suits your needs and schedule. This course is offered online as well as in-person in the San Francisco bay area, CA.
| Online option: |
Take advantage of the web-based course on "Obtaining a Converged Solution with Abaqus" right from your desk — no productivity loss due to travel and no travel expenses. Support engineers from SIMULIA West are available by phone to help you. |
| Classroom option: |
Attend the same course in person at the Simulia office in San Francisco bay area, benefit from the classroom experience, interact with other attendees and avoid interruptions from day-to-day workload. |
Date: February 8-9, 2012
Time: Two full days, 8:30a.m. – 5:00p.m. PT
Time zone: Pacific Time (PT) – San Francisco, California U.S.A.
Objective:
Obtaining converged solutions for highly nonlinear
simulations can sometimes be challenging. Difficulties can
arise, especially in simulations involving contact,
complicated material models, and geometrically unstable
behavior. Many years of practical experience in
understanding and resolving convergence issues have
been condensed into this course.
Using both workshops and practical examples in the
lectures, you will learn:
- How nonlinear problems are solved in Abaqus
- How to develop Abaqus models that will converge
- How to identify modeling errors that cause models to
experience convergence difficulties
- How to recognize when a problem is too difficult or too
ill-posed to be solved effectively
Who should attend:
This course is recommended for engineers with
experience using Abaqus/Standard.
Agenda
To download a course overview in PDF format, click here. The overview
provides details of the topics covered in each lecture. Note that the actual
course agenda may vary depending on location.
Download the free Adobe Acrobat PDF Reader here 
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Many assembly processes involve highly
nonlinear motions of the components. Obtaining a converged solution is
challenging when components snap together, as occurs when the pipe is pushed into the
plastic clip. The nodes shown in red have difficulties resolving the
changing contact conditions in the assembly. This seminar will explain the modeling techniques necessary to solve such challenging problems.
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Course was last updated December 2011
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