Don't Miss this Upcoming Webinar

Simulation Solutions for Spacecraft and Satellites

Mechanisms, Multibody Dynamics, Multiphysics, and Composites

Tuesday, March 16 – 11 a.m. – 12 p.m., EDT

For spacecraft, satellites, and planetary exploration vehicles there is
no margin for error and testing possibilities are limited. For these systems, realistic and accurate simulations are necessary to produce a product that can accomplish all defined goals and have a long, useful life.

Multiple simulations are necessary to measure operational and environmental loadings on these products. Typical analyses include thermal, stress, fatigue, durability, transportation, and handling simulations, as well as dynamic analysis in the modal domain or the transient, often nonlinear, domain. Additionally, the ability to cosimulate these loads coupled with kinematic and mechanism operations is essential.

With 30 years of experience in delivering high-quality solutions, SIMULIA strives to provide our customers with the technical functionality they need to bring the best products to market. The Abaqus Unified FEA product suite enables engineers to effectively address the challenges of spacecraft simulation.

Join us for a free one-hour webinar to learn how you can leverage realistic simulation to accurately model and understand your spacecraft structures by utilizing the robust technology within the Abaqus Unified FEA product suite.

Attend and Learn about:

• Advanced composite capabilities of Abaqus simulation software
• Multibody Dynamics (MBD) simulations; including fully coupled nonlinear FEA with mechanisms
• Multiphysics simulations of re-entry vehicles
• Customer stories and examples

Who Should Attend:

All designers, engineers, and engineering managers who are interested in exploring how to use advanced FEA technology and methods to improve the accuracy of and reduce time spent analyzing their composite products.

About the Presenter:

Kyle Indermuehle, Industry Lead – Aerospace, SIMULIA

Kyle Indermuehle is the Aerospace Lead at SIMULIA focusing on the aerospace industry and composites. In this role, Kyle is responsible for driving the strategy and product development efforts for Aerospace customer needs. Prior to his role at SIMULIA, Kyle worked on a variety of aerospace programs including the Pratt & Whitney RL10B-2 rocket engine, analysis and testing of Unmanned Aerial Vehicles (UAV), and multiple satellite programs. Some of the aero companies the he has been closely associated with are Airbus, Pratt & Whitney, ATR, Eurocopter, Snecma etc. Kyle received his B.S. in aerospace engineering from Purdue University and his M.S. in structural engineering from University of California, San Diego.