Explore how vibroacoustic simulation software empowers design engineers to achieve product certification on their first attempt. Learn how trusted simulations mitigate testing risks, ensuring compliance with stringent space industry standards. Discover how VA ONE, the defacto vibroacoustic simulation software of the space industry, is suited to empower your mission success.
Overview
Join us as we delve into the critical role of trustworthy vibroacoustic performance simulation in the space industry. This session will take you on a journey, starting with the key challenges faced by space vehicle and payload manufacturers and the stringent requirements for product certification. We'll explore how traditional testing methods fall short and introduce advanced simulation techniques as a solution.
Our experts will discuss how ESI's VA ONE software empowers engineers to achieve certification on their first attempt by providing accurate, trusted simulations. You'll learn about the specific capabilities of VA ONE, including Finite Element Modeling (FEM), Boundary Element Modeling (BEM), and Statistical Energy Analysis (SEA), and how these tools help predict and solve potential issues before physical testing.
By the end of the webinar, you'll understand why VA ONE is the de-facto solution for vibroacoustic performance simulation and has been trusted by leading space organizations for four decades. Don't miss this opportunity to enhance your knowledge and ensure your future designs and products meet the highest safety and reliability standards. Register now to secure your spot.
Key Takeaways
- Identify the key challenges and risks associated with vibroacoustic performance in the space industry, including the high costs and time delays of repeated testing, and ultimately the need to avoid mission failure.
- Value how ESI's VA ONE software provides accurate and trusted simulations that help engineers achieve product certification on their first attempt, ensuring compliance with stringent industry standards.
- Appreciate how advanced simulation techniques such as Finite Element Modeling (FEM), Boundary Element Modeling (BEM), and Statistical Energy Analysis (SEA) can predict and mitigate potential issues before physical testing, enhancing the safety and reliability of space missions.
Speakers
Dr. Alexis Castel is a technical expert specializing in Vibro-Acoustics for Aerospace at ESI Group. He received his PhD in Mechanical Engineering at SPIM Doctorate School, University of Burgundy in Nevers, France. Dr. Castel was the lead Vibroacoustic engineer for a Payload Environmental Control project at NASA, and through his role at ESI, he took part in multiple applications development for the space industry such as a virtual Direct Field Acoustic Test) DFAT simulation tool, cross-methodology shock simulation, or modal strain energy damping implementation for coupled vibro-acoustic simulation models. Dr. Castel is actively involved in various workshops and conferences, sharing his expertise and advancing the application of vibro-acoustic simulation. His work continues to drive innovation in aerospace vibro-acoustics, making him a respected figure in the industry.
Ignatius Vaz is the Business Development Manager at ESI Group, where he leverages his extensive experience in the aerospace industry to drive innovation and growth. Holding a Master of Science in Aerospace Engineering from the University of Kansas, Ignatius has led the design and delivery of aerospace components, including anti-vibration and noise attenuation packages for various space, aircraft, rotorcraft, and VIP business jets companies. Before his current role, Ignatius held several key positions at Hutchinson, including Manager of the Structural Dynamics and Acoustics Business Unit. His expertise in structural and vibro-acoustic engineering has been instrumental in advancing ESI Group's capabilities and solutions. Ignatius is a frequent speaker at industry workshops and conferences, where he shares insights on the latest trends and technologies in aerospace simulation and development. He has also authored numerous blog articles, contributing valuable knowledge and perspectives to the field. His contributions continue to shape the future of aerospace engineering, making him a respected leader in the industry.