Woodruff School of Mechanical Engineering
COE/Structural Mechanics Seminar
ENABLING ENGINEERED PROPERTIES VIA ARCHITECTURED MATERIALS
Prof. Jonathon Hopkins
University of California, Los Angeles
Thursday, March 1, 2018 at 11:00:00 AM
Montgomery Knight Building, Room 317
Architectured materials (a.k.a. mechanical metamaterials) achieve properties that derive primarily from their microstructure instead of their composition. Preliminary experimental and simulated results obtained from sub-millimeter-sized architectured-material samples show promise for achieving currently unobtainable combinations of super properties that will enable a host of next-generation technologies. The two most significant barriers preventing the practical implementation of such materials, however, include the following: (i) Design tools are currently limited in their ability to sufficiently enable the topological synthesis and optimization of such materials (particularly when they consist of nonrepeating patterns) largely because their complex features span multiple orders of magnitude. (ii) Additionally, fabrication approaches do not currently exist that can fabricate practical volumes of such materials while also achieving their architecture's submicron-sized features. Fabricating such features in a repeatable way using multiple constituent materials is even more difficult. Professor Hopkins' Flexible Research Group has focused much of their efforts at UCLA toward overcoming these challenges. This seminar will provide an overview of the design and fabrication tools generated by the Flexible Research Group in the context of practical architectured-material applications. The group's design tools leverage the simplified mathematics of the Freedom and Constraint Topologies (FACT) synthesis approach to rapidly search the full design space of both periodic and nonperiodic architectured topologies to achieve desired combinations of properties. The group's fabrication tools utilize custom-developed components (e.g., a flexure-based micro-mirror array) to generate multiple optical traps that are independently controlled to assemble large numbers of different material micro-particles simultaneously for rapidly constructing desired microstructures.
Jonathan Hopkins is an assistant professor at the University of California, Los Angeles and is the director of the Flexible Research Group. The aim of his group is to enable the creation of flexible structures, mechanisms, and materials that achieve extraordinary capabilities via the deformation of their constituent compliant elements. Prior to coming to UCLA, Jonathan was a postdoc at Lawrence Livermore National Laboratory from 2010 to 2013 and received his Ph.D. (2010), Masters (2007), and Bachelors (2005) degrees all in mechanical engineering at the Massachusetts Institute of Technology. He was honored by President Barack Obama at the White House with a DOE nominated PECASE award for his work involving the design and fabrication of architectured materials. Additionally, he is a recipient of ASME's 2016 Freudenstein/General Motors Young Investigator Award, the V.M. Watanabe Excellence in Research Award, and the Northrop Grumman Excellence in Teaching Award.
Refreshments will be served.