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Jeong-Hoon Song 
Phone 803.777.9105
Fax 803.777.0670

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Curriculum Vitae

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300 Main Street, Room C214
Civil & Environmental Engineering
University of South Carolina

Jeong-Hoon Song

Assistant Professor


Dr. Song's general research interests fall into the category of computational solid mechanics. Dr. Song has actively worked on: 1) predicting static/fatigue/dynamic fracture in micro/macro scales, 2) developing multiscale analysis frameworks for failure of advanced composite materials, 3) predicting fluid-soild interaction systems, such as dynamic buckling and failure of submerged nonlinear shell structures, and 4) implementing parallel MPI code for practical engineering problems.


Education

  • Ph.D., Theoretical and Applied Mechanics, Northwestern University, 2008
  • M.S., Civil Engineering, Yonsei University, Korea, 2003
  • B.S., Civil Engineering, Yonsei University, Korea, 2001,

Selected Publications

  • T. Belytschko and J.H. Song, "Coarse-graining of multiscale crack propagation", International Journal for Numerical Methods in Engineering, 81:537–563 (2010).
  • T. Rabczuk, R. Gracie, J.H. Song and T. Belytschko, "Immersed particle method for fluid-structure interaction", International Journal for Numerical Methods in Engineering, 81:48–71 (2010).
  • T. Menouillard, J.H. Song, Q. Duan and T. Belytschko*, "Time dependent crack tip enrichment for dynamic crack propagation", International Journal of Fracture, 162: 33-49 (2010).
  • Q. Duan, J.H. Song, T. Menouillard and T. Belytschko, "Element-local level set method for three-dimensional dynamic crack growth", International Journal for Numerical Methods in Engineering, 80:1520–1543 (2009).
  • J.H. Song and T. Belytschko, "Multiscale aggregating discontinuities method for micro-macro failure of composites", Composite Part B: Engineering, 40:417-426 (2009). (Invited paper for special issue on Blast/Impact on Engineered (Nano) Composite Materials)
  • J.H. Song and T. Belytschko, "Dynamic fracture of shells subjected to impulsive loads", ASME Journal of Applied Mechanics, 76:051301 (2009). (Invited paper for special issue on Advances in Impact Engineering)
  • T. Rabczuk, J.H. Song* and T. Belytschko, "Simulations of instability in dynamic fracture by the cracking particles method", Engineering Fracture Mechanics, 76:730-741 (2009). (Invited paper for special issue on Multi-scale Analysis of Evolving Interfaces in (Multi) Materials - Multiscale Analysis)
  • J.H. Song and T. Belytschko, "Cracking node method for dynamic fracture with finite elements", International Journal for Numerical Methods in Engineering, 77:360-385 (2009).











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