Â鶹ÒùÔº

Skip to main content

Patten Seminar Series Announcement: Gregory Odegard

Gregory Odegard in blue suit

Seminar: US-COMP: Next Generation of Composite Materials for Crewed Deep Space Missions

Speaker: Gregory Odegard, John O. Hallquist Endowed Chair of Computational Mechanics, Michigan Technological University

Director, NASA STRI for Ultra-Strong Composites by Computational Design

Host: Hendrik Heinz

Tuesday, March 15, 2022 - 2:45 p.m. MT
JSCBB A108

Seminar Abstract

Current state-of-the-art composite materials are not light/strong enough for crewed missions to Mars and beyond. Structural components of deep space vehicles require lighter/stronger materials for fuel efficiency. The NASA Space Technologies Research Institute (STRI) for Ultra-Strong Composites by Computational Design (US-COMP) is focused on developing a new generation of composites for this purpose. US-COMP is using computational simulation to drive the material design in an efficient manner. By developing new simulation tools, experimental methods, and databases of material information, US-COMP is playing a central role in the national Materials Genome Initiative (MGI).Ìý The ultimate goals of US-COMP are to design, fabricate, and test composite panels that meet NASA’s requirements; and to train students to enter the advanced composite materials workforce.

Biosketch

Professor Gregory Odegard is the John O. Hallquist Endowed Chair in Computational Mechanics in the Department of Mechanical Engineering – Engineering Mechanics at Michigan Tech. He is the Director of the NASA Institute for Ultra-Strong Composites by Computational Design, which is focused on development the next generation of composites materials for manned deep-space missions. Before joining the faculty at Michigan Tech, Greg was a researcher at NASA Langley Research Center from 2000-2004. He received his PhD at the University of Denver in 2000. His research is focused on computational modeling of advanced material systems. According to Google Scholar, he has been cited over 8,900 times in the literature, and has an h-index of 41. He is a Fellow of ASME and an Associate Fellow of AIAA.