Jamie Huang
About Jamie Huang
Jamie Huang is a Structural Analysis Engineer at Navistar Inc, specializing in simulation methods and thermal/fluid dynamics. He holds a Master's degree in Mechanical Engineering from Northwestern University and has experience in both internships and professional roles in the field.
Work at Navistar
Jamie Huang has been employed at Navistar Inc. as a Structural Analysis Engineer since 2020. In this role, Huang focuses on advanced simulation-driven design methodologies within the field of mechanical engineering. The position is based in Melrose Park, where Huang has contributed to various structural analysis projects over the past four years.
Education and Expertise
Jamie Huang holds a Master's degree in Mechanical Engineering from Northwestern University, where the focus was on simulation-driven design. This degree was obtained from 2018 to 2019. Prior to this, Huang earned Bachelor's degrees in Mechanical Engineering from both Stony Brook University (2015-2018) and City College of New York (2014-2015). Huang specializes in simulation methods, including finite element methods, meshfree methods, discrete and particle methods, as well as thermal and fluid dynamics.
Background
Before joining Navistar Inc. as a Structural Analysis Engineer, Jamie Huang gained practical experience through internships. In 2019, Huang worked as a Structural Analysis Engineer Intern at Navistar Inc. for three months in Melrose Park. Additionally, in 2017, Huang served as a Mechanical Engineer Intern at AD Automation for two months in Tianjin City, China. These roles provided foundational experience in mechanical engineering and structural analysis.
Specialization in Simulation Techniques
Jamie Huang specializes in various simulation techniques that are critical in mechanical engineering. This includes expertise in thermal and fluid dynamics simulation techniques, as well as advanced simulation-driven design methodologies. Huang's skill set encompasses the finite element method, meshfree methods, and discrete and particle methods, which are essential for conducting thorough structural analyses.