or Google scholar

Journal Publications

(*Corresponding author)

NOTE: All of the PDF files in this page are copyrighted except for the publications with open access option. They are provided for your convenience. You may download them only if you are entitled to do so by your specific arrangements with various publishers.

  • A. Tabarraeia*, S. Shadaloua and J.H. Song, "Mechanical properties of Graphene nanoribbons with disordered edges", Computational Material Science, under review (2014).
  • Y. Fu and J.H. Song*, "Large deformation mechanism of glassy polyethyelene polymer nanocomposites: coarse grain molecular dynamics study", Computational Material Science, under review (2014).
  • X. Wang, A. Tabarraie*, A. Sadeghirad and J.H. Song, "An enhanced bridging domain method for linking atomistic and continuum domains", Finite Elements in Analysis and Design, under review (2014).
  • J.H. Song* and Y.C. Yoon, "Multiscale failure analysis with coarse-grained micro cracks and damage", Theoretical and Applied Fracture Mechanics, under review (2014).
  • Y.C. Yoon* and J.H. Song*, "Extended particle difference method for moving boundary problems", Computational Mechanics, accepted (2014).
  • Y.C. Yoon* and J.H. Song, "Extended particle difference method for weak and strong discontinuity problems: Part II. Formulations and applications for various interfacial singularity problems", Computational Mechanics, DOI: 10.1007/s00466-013-0951-7, in early view, (2013). [PDF]
  • Y.C. Yoon and J.H. Song*, "Extended particle difference method for weak and strong discontinuity problems: Part I. Derivation of the extended particle derivative approximation for the representation of weak and strong discontinuities", Computational Mechanics, DOI: 10.1007/s00466-013-0950-8, in early view, (2013). [PDF]
  • A. Tabarraei, J.H. Song* and H. Waisman, "Two-scale approach for modeling adiabatic shear band propagation under impact loads", International Journal for Multiscale Computational Engineering, 11: 543-563 (2013). [PDF]
  • J.H. Song*, P. Lea and J. Oswald, "Explicit dynamic finite element method for predicting implosion/explosion induced failure of shell structures", Mathematical Problems in Engineering, 2013: 957286 (2013). [PDF (Open access)]
  • J.H. Song*, T. Menouillard and A. Tabarraei, "Explicit dynamic finite element method for failure with smooth fracture energy dissipations", Mathematical Problems in Engineering, 2013: 293861 (2013). [PDF (Open access)]
  • H. Nguyen-Vinh, I. Bakar, M.A. Msekh, J.H. Song, J. Muthu, G. Zi, P. Le, S. Bordas, R. Simpson, S. Natararajan, T. Lahmer and T. Rabczuk*, "Extended finite element method for dynamic fracture of piezo-electric materials”, Engineering Fracture Mechanics, 92:19-31 (2012). [PDF]
  • O. Barkai, T. Menouillard, J.H. Song, T. Belytschko and D. Sherman*, "Crack initiation and path selection in brittle specimens: a novel experimental method and computations”, Engineering Fracture Mechanics, 89:65-74 (2012). [PDF]
  • T. Chau-Dinh, G. Zi*, P.S. Lee, T. Rabczuk, and J.H. Song, "Phantom-node method for shell models with arbitrary cracks”, Computer & Structure, 92-93: 242-256 (2012). [PDF]
  • T. Belytschko* and J.H. Song, "Coarse-graining of multiscale crack propagation", International Journal for Numerical Methods in Engineering, 81:537–563 (2010). [PDF]
  • 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). [PDF] (Selected for the most cited article of the journal in 2012)
  • 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). [PDF]
  • 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). [PDF]
  • J.H. Song and T. Belytschko*, "Multiscale aggregating discontinuities method for micro-macro failure of composites", Composite Part B: Engineering, 40:417-426 (2009). [PDF]
  • J.H. Song* and T. Belytschko, "Dynamic fracture of shells subjected to impulsive loads", ”, Journal of Applied Mechanics –Transactions of the ASME, 76:051301 (2009). [PDF]
  • 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). [PDF]
  • 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). [PDF]
  • J.H. Song, H.W. Wang and T. Belytschko*, "A comparative study on finite element methods for dynamic fracture", Computational Mechanics, 42:239-250 (2008). [PDF]
  • T. Belytschko*, S. Loehnert and J.H. Song, "Multiscale aggregating discontinuities: A method for circumventing loss of material stability", International Journal for Numerical Methods in Engineering,International Journal for Numerical Methods in Engineering, 73: 869-894 (2008). [PDF]
  • J.H. Song, P.M.A. Areias and T. Belytschko*, "A method for dynamic crack and shear band propagation with phantom nodes", International Journal for Numerical Methods in Engineering, 67: 868-893 (2006). [PDF]
  • P.M.A. Areias, J.H. Song and T. Belytschko*, "Analysis of fracture in thin shells by overlapping paired elements", Computer Methods in Applied Mechanics and Engineering, 195: 5343-5360 (2006). [PDF]
  • P.M.A. Areias, J.H. Song and T. Belytschko*, "A finite-strain quadrilateral shell element based on discrete Kirchhoff-Love constraints", International Journal for Numerical Methods in Engineering, 64: 1166-1206 (2005). [PDF]
  • G. Zi*, J.H. Song, E. Budyn, S.H. Lee and T. Belytschko, "A new method for multiple cracks and its application to fatigue crack growth", Modeling and Simulations in Materials Science and Engineering, 12: 901-915 (2004). [PDF] (Selected for the most downloaded article of the year and included in publications of Institute of Physics)
  • S.H. Lee*, J.H. Song, Y.C. Yoon, G. Zi and T. Belytschko, "Combined extended and superimposed finite element method for crack", International Journal for Numerical Methods in Engineering, 59: 1119-1136 (2004). [PDF]
  • G. Zi*, J.H. Song and S.H. Lee, "A new method for growing multiple cracks without remeshing and its application to fatigue crack growth", KSCE, Journal of the Korean Society of Civil Engineers, 25:183-190 (2005). [PDF (in Korean)]
  • S.H. Lee*, J.H. Song and M.Y. Kim, "Crack propagation analysis without mesh-dependency by using extended finite element method", KSCE, Journal of the Korean Society of Civil Engineers, 23: 1077-1086 (2003). [PDF (in Korean)]

Chapters in Book

  • J.H. Song and T. Menouillard, "Explicit dynamic finite element method for fracture of Shells", Computational Mechanics Research Trends: Computer Science, Technology and Applications, H. P. Berger (Eds.), Nova Science Publisher, pp. 291-317 (2010). [Link]
  • T. Belytschko, J.H. Song, H.W. Wang and R. Gracie, "On applications of XFEM to dynamic fracture and dislocations", IUTAM Symposium on Discretization Methods for Evolving Discontinuities: Proceedings of the IUTAM Symposium held in Lyon, France 4-7 September 2006, A. Combescure, R. de Borst and T. Belytschko (Eds.), Springer, pp. 155-170 (2007). [Link]