Professor
Prof.
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연구분야
Advanced Engineering Mechanics
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Degree
Ph.D. Structures and Materials, MIT
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Office
W16 306
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Tel
+82-42-350-3616
- 홈페이지
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Track
Resilient Infrastructure
Advanced Applied Mechanics Laboratory focuses on analyses and experiments of various kinds of multiphysics and multiscale problems such as blast-structure interaction, high-speed impact, material plasticity and fracture, wave propagation excited by PZTs or laser beams, high-performance bio-inspired materials, and 3D optical nanocomposites. Multiphysics problems are described by combining multiple different kinds of governing equations, and the multiscale simulation requires the comprehensive consideration of different material or structural scales such as micro-, meso-, and macro scales. To simulate these phenomena with high fidelity and efficiency, several numerical techniques have been developed using the finite element method, peridynamics, and other meshless methods. We have enhanced the fundamental understanding of the mechanics, and the research results enable the applications for national security, infrastructural safety, and structural health monitoring.
Education∙ M.S. in Civil Engineering, KAIST (1996)
∙ Ph.D. in Structures and Materials, Massachusetts Institute of Technology (2004)
∙ 2004~2006 Postdoctoral researcher, University of Florida, Gainesville, FL
∙ 2006~2008 Senior Research Engineer, Weidlinger Associates, Inc., Mountain View, CA
∙ 2008~2008 Manufacturing/Reliability Engineer, Cisco Systems, Inc., San Jose, CA
∙ 2008~2012 Assistant Professor, Dept. of Civil & Env. Eng., Michigan State University
∙ 2012~2014 Adjunct Professor, Dept. of Civil & Env. Eng., Michigan State University
∙ 2012~2020 Associate Professor, Dept. of Civil & Env. Eng., KAIST
∙ 2020~present Professor, Dept. of Civil & Env. Eng., KAIST
∙ MultiPhysics
∙ Computational Mechanics
∙ Finite element method
∙ Meshless method
∙ Material plasticity
∙ Structural analysis under extreme events
∙ Structural health monitoring