Strategies for mastering StressCheck® Professional for a variety of Aerospace & Defense engineering applications, and a review of the available training options and online resources, will be explored.
February 12, 2020 @ 1:00 pm EST
Mastering StressCheck®: Practical Training Approaches & Online Resources for A&D Engineers
This webinar is now available to watch on-demand.
In this 2 hour webinar we will review training approaches focused on applications to make numerical simulation via finite element analysis S.A.F.E.R. - Simple, Accurate, Fast, Efficient, and Reliable.
- Selections from ESRD’s Introduction to StressCheck® training course focusing on typical engineering applications for A&D will be previewed, and training options for gaining practical StressCheck® experience will be explored.
- We will have a walk through our rapidly growing and extensive Resource Library, with tips on finding the most applicable tutorial video, best practice, FAQ topic or online resource to support your simulation needs.
- Case studies of the engineering applications targeted during an Introduction to StressCheck® training course, such as multi-body contact, global-local analysis, and proper application of boundary conditions, will be presented.
WATCH THIS WEBINAR
Part 1: Nuts & Bolts of StressCheck®, Why Get StressCheck® Training?
Part 2: Intro to StressCheck® Training Course Preview, Self-Training Resources
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Recent News & Events
“At DST Group, we have effectively used StressCheck® over the last 10 years to determine accurate stress intensity factors. The results have been used to improve our residual strength and structural life estimates for aircraft in service with the Royal Australian Airforce, including C-130, P-3C and F/A-18 A/B. We have found it to be extremely easy to use and a very versatile code with which to create parametric models.
We have recently used StressCheck® to obtain improved stress intensity factor solutions (Improved stress intensity factors for selected configurations in cracked plates and Improved stress intensity factors for a single corner crack at a loaded fastener hole) for five key generic configurations. These transferable parametric results have been published externally. One specific example is the non-linear contact analysis of a cracked, filled fastener hole, with both fastener and remote plate loading.”
Dr. Manfred Heller, HeadStructural & Damage Mechanics, DST Group