Lunch and Learn Session

Are you looking for a powerful, general-purpose, nonlinear FEA solution to accurately simulate the product behavior under different loading conditions?

Do you need an efficient and versatile tool that can easily model advanced nonlinear material behaviors for your compound design?

Do you want to learn new nonlinear techniques that improve your simulation and design process? Do you need to obtain accurate results and better convergence rates?

Marc is a powerful tool that provides users with comprehensive and robust solution schemes to simulate all kinds of nonlinearities, namely geometric, material and boundary condition nonlinearity, including contact.

Engineers are able to significantly reduce time and cost by taking advantage of the innovative technology behind Marc, leading to a better and improved design. Through its broad range of capabilities, Marc makes it easy to obtain a good correlation between simulation results and experimental test data.

Please join us for a FREE Lunch and Learn to get more familiarized with the state of the art technology behind Marc’s nonlinear technology.    

Space is limited, so register today! 

Date Location Time
Friday, June  9, 2017
MSC Newport Beach
4675 MacArthur Ct, Ste 900
Newport Beach, CA 92660
12:00PM - 1:30PM


12:00 - 12:25 Welcome/Introductions/Grab Lunch
12:25 - 12:45 Demo 1: Frequency Response Analysis
12:45 - 1:15
Hands-On Training
Workshop 1 - Frequency Response Analysis
Workshop 2 - Basic Midsurface Extraction, Repair, Meshing, and Thickness Property Assignment
1:15 - 1:30 Feedback/Wrap-Up

Lorem Ipsum is simply dummy text of the printing and typesetting industry, when an unknown printer took a galley of type and scrambled it to make a type specimen book.

Printer took a galley of type and scrambled it to make a type specimen book.

Lorem Ipsum passages, and more recently with desktop publishing software like Aldus PageMaker including versions of Lorem Ipsum.


James Pura, Application Engineer, has many years of structural analysis experience mainly within the aerospace industry, and specializes in "cradle to grave" design and analysis workflows for airplane, spacecraft, and launch vehicle applications, including weight reduction and structural optimization of both metallic and composite structures. James has a degree in Mechanical Engineering from the University of California, San Diego, and currently resides in Seattle, WA.