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Origami and Topology: Two Powerful Ingredients for Designing Mechanical Metamaterials
Jinkyu Yang (Unversity of Washington)

ABC Physics (Atomic/Bio/Condensed Matter) Seminar

Date: Thursday, May 31, 2018 12:30 PM
Location: PAT C-520

Abstract

Mechanical metamaterials are emerging as an enabling technology for manipulating mechanical energy flow at will. The unique mechanical properties of these metamaterials are derived from structural architectures rather than their base materials. A natural question is how we design these architectures in a clever way to realize novel mechanical properties unprecedented in nature. In this presentation, I will talk about two powerful tools for designing mechanical metamaterials: origami and topology. First, I will show how origami design principle can be exploited to construct metamaterials that mitigate structural impact in an efficient way. Specifically, I will demonstrate a counter-intuitive mechanism of converting external compressive impact to tensile waves by using origami-based metamaterials. Second, I will talk about how the mathematical concept of topology can be applied to the design of mechanical waveguides. Inspired by the recent advent of topological insulators, I will show these topological waveguides can generate a defect-immune robust propagation of stress waves. Throughout the talk, I will place the experimental results in the context of potential engineering applications.

Biosketch

​Jinkyu Yang is an Assistant Professor in Aeronautics & Astronautics at the University of Washington (UW). Formerly, he was an Assistant Professor in Mechanical Engineering as well as an interim Program Director of Aerospace Program at the University of South Carolina (2011-2013). He held a postdoctoral researcher position at Caltech (2009-2011) and a senior engineer position at Samsung Electronics (2006-2009). He received his Ph.D. degree in Aeronautics and Astronautics from Stanford University in 2005. His research has been directed towards developing novel engineered materials and structures, e.g., metamaterials, phononic crystals, and nonconventional composites, for aerospace and mechanical applications under the sponsorship of U.S. National Science Foundation (NSF), Department of Defense, Federal Aviation Agency, and Boeing. He has received the NSF CAREER, University of South Carolina’s Rising Star, and Samsung Think Tank Team Awards.