Jeong-Hoon Song
Associate Professor
Structural Engineering & Structural Mechanics • Materials Science & Engineering • Engineering Science

Office: ECOT 549

Education:

  • Ph.D. (2008): Theoretical and Applied Mechanics, Northwestern University, Evanston, IL, USA
  • M.S. (2003): School of Civil and Environmental Engineering, Yonsei University, Seoul, Korea
  • B.S. (2001): School of Civil and Environmental Engineering, Yonsei University, Seoul, Korea

Professional Affiliations:

  • Committee member (2013-present): ASCE EMI Computational Mechanics Committee
  • Member (2013-present): American Society of Civil Engineers (ASCE)
  • Member (2006-present): United States Association for Computational Mechanics (USACM)
  • Member (2006-present): International Association for Computational Mechanics (IACM)

Interests:

  • Computational multiscale analysis for failure
  • Computational multiphysics analysis for coupled field interactions
  • Computational material design and analysis
  • Model reduction for real-time computing

Recent publications:

  1. I. Asareh, Y.C. Yoon and J.H. Song, A numerical method for dynamic fracture using the extended finite element method with non-nodal enrichment parameters, International Journal of Impact Engineering, 121:63-76 (2018).
  2. K.C. Hoang, T.Y. Kim and J.H. Song, Fast and accurate two-field reduced basis approximation for parametrized thermoelasticity problems, Finite Element Analysis and Design, 141: 96-118 (2018).
  3. J.H. Song, Y. Fu, T.Y. Kim, Y.C. Yoon, J.G. Michopoulos and T. Rabczuk, Phase field simulations of coupled microstructure solidification problems via the strong form particle difference method, International Journal of Mechanics and Materials in Design, (2017). Link
  4. Y. Fu, J.G. Michopoulos and J.H. Song, On investigating the thermomechanical properties of cross-linked epoxy via molecular dynamics analysis, Nanoscale and Microscale Thermophysical Engineering, 21:8-25 (2017).
  5. Y. Fu, J.G. Michopoulos and J.H. Song, Bridging the multi-phase field model with the molecular dynamics for the solidification of nano-crystals, Journal of Computational Science, 20:187-197 (2017).
  6. K.C. Hoang, Y. Fu, and J.H. Song, An hp-proper orthogonal decomposition-moving least squares approach for molecular dynamics simulation, Computer Methods in Applied Mechanics and Engineering, 298: 548-575 (2016).
  7. J. Lua, T. Zhang, E. Fang and J.H. Song, “Explicit phantom paired shell element approach for crack branching and impact damage prediction of aluminum structures”, International Journal of Impact Engineering, 87:28–43 (2016).
  8. Y. Fu, J.G. Michopoulos and J.H. Song, “Dynamic response of  polyethylene polymer nanocomposites to shock wave loading”, Journal of Polymer Science, Part B: Polymer Physics, 53: 1292-1302 (2015).
  9. Y. Fu, J.G. Michopolous and J.H. Song, “Coarse-grained molecular dynamics simulations of epoxy resin during the curing process”, Computational Materials Science, 107: 24-32 (2015).
  10. Y. Fu and J.H. Song, “Heat flux expressions that satisfy the conservation laws in atomistic system involving multibody potentials”, Journal of Computational Physics, 294: 191–207 (2015).