Ali Beheshti

assistant professor Ali Beheshti

Assistant Professor, Department of Mechanical Engineering

Contact Information

Phone: 703-993-5638
Campus: Fairfax
Building: Nguyen Engineering Building
Room 2708
Mail Stop: 6E9
Email: abehesh@gmu.edu

Personal Websites

TSM Lab Website
Google Scholar

Biography

Ali Beheshti is currently an assistant professor and director of the Tribology and Surface Mechanics Lab at George Mason University. His research interests are inspired by the impending need for sustainable design and operation as well as prolonging the lifecycle of advanced components, especially focusing on surface mechanics. The current objective and focus of his lab is on tribology (science of lubrication, wear, and friction), and contact and interfacial mechanics at different scales. The pivot of his research is centered around the performance of advanced materials and components such as super alloys as well as additively manufactured parts under extreme environments.

Before joining George Mason, he was an assistant professor at Texas State University-Lamar for two-and-a-half years and a visiting assistant professor at Texas A&M University. He received his PhD in mechanical engineering with a minor in civil and environmental engineering from Louisiana State University. At George Mason and Lamar Universities, he has secured nearly $600K in research funding from federal and state agencies (Department of Energy, National Science Foundation(NSF), and Port of Beaumont). He was the recipient of the Texas State University Junior Faculty Merit Award in 2017. He has authored and coauthored nearly 35 peer-reviewed journal papers in highly reputable journals such as Mechanics of Materials, Materials and Design, Applied Mechanics-ASME, Tribology International, and Solar Energy. He is also serving as a reviewer for several journals and served as NSF panelist, chair, and co-chair for several conference sessions such as ASME, Tribology Frontiers, and STLE as well as served as a session organizer for K-12 STEM activities.

Research

“High Temperature Helium Tribology of Nickle Alloys, Funded by Department of Energy, 2017-2019”

Degrees

PhD, Mechanical Engineering, LSU

Current Projects

  • Tribology and Contact Failure Mechanics of Additively-Manufactured Inconel 625 and Inconel 718 for High Temperature Applications.

  • High Temperature Multiscale Tribological Performance of Ni Alloys under Helium Environment.

  • Multiscale Tribological Study of Additively-Manufactured Composite Polymers.

  • Surface Integrity and Microindentation Study of Shaft Bearing Materials Subjected to Laser Shock Peening.