Greg Schebler
About Greg Schebler
Greg Schebler is an Engineering Analyst at Lawrence Livermore National Laboratory, where he has worked since 2010. He specializes in developing computational models for structural response and performs simulations using finite element analysis.
Work at Lawrence Livermore National Laboratory
Greg Schebler has been employed at Lawrence Livermore National Laboratory as an Engineering Analyst since 2010. In this role, he focuses on developing high-fidelity computational models that assess structural responses under shock loading conditions. His responsibilities include designing experiments to validate these computational models and collaborating with engineers and technical staff to ensure successful project execution. His work contributes to advancements in engineering analysis and simulation technologies.
Education and Expertise
Greg Schebler earned a Bachelor of Science (BS) degree in Engineering Mechanics from the University of Illinois Urbana-Champaign, completing his studies from 2005 to 2009. He furthered his education at the same institution, obtaining a Master of Science (M.S.) in Theoretical and Applied Mechanics from 2009 to 2010. His academic background provides a strong foundation for his expertise in structural and hydrodynamic simulations, particularly using finite element analysis to address complex mechanical problems.
Background
Prior to his current position, Greg Schebler served as an Adjunct Professor at Las Positas College for four months in 2017. This role allowed him to share his knowledge in engineering with students in Livermore, CA. His academic and professional experiences have shaped his approach to engineering analysis and education, emphasizing practical applications of theoretical concepts.
Achievements
Greg Schebler specializes in high-fidelity computational modeling and has a significant focus on structural response due to shock loading. His work involves performing detailed structural and hydrodynamic simulations, which are critical for understanding complex mechanical issues. His contributions to the field of engineering analysis are recognized through his ongoing projects and collaborations within the research community.