Computational Advanced Nanomechanics (CAN)
Career History
- 2019 – present : Professor, UNIST
- 2014 – 2019 : Associate Professor, UNIST
- 2009 – 2014 : Assistant Professor, UNIST
- 2010 – 2020 : Director, UNIST Supercomputing Center
- 2006 : Ph.D. in Mechanical Engineering, KAIST
- 2000 : M.S. in Mechanical Engineering, KAIST
- 1998 : B.S. in Mechanical Engineering, KAIST
Intro
CAN is investigating various characteristics of nanoscale materials using computation,
specially emphasizing on the mechanics or mechanics-mediate characteristics of them.
CAN is studying the validity and limitation of continuum (solid) mechanics theories in the
applications for nanoscale materials. In addition, CAN is working on traditional CAE using FEM for various applications such as batteries,
electronic skin, auxetic materials, acoustic topological insulators and so on.
Research Field
Topological Metamaterials, Dislocation Theory, Nano-cracks (또는 Nanocracks), Materials with Negative Properties, Mechanical Anomalous Properties