Publications

听/

Journal Publications

(*聽denotes corresponding author)

  • In Preparation or聽Submitted

    • Journal Article: P. Schaefferkoetter, Y.C. Yoon and J.H. Song*, Three-Dimensional Continuum Point Cloud Method for Thermoelasticity Problem.
    • Journal Article: Y.C. Yoon and J.H. Song*, Extrinsic interface extended finite element method for moving weak discontinuity.

  • 2025

    • S. Sahmani, T. Rabczuk*, J.H. Song and B. Safaei, Unified nonlocal surface elastic-based thermal induced asymmetric nonlinear buckling of inhomogeneous nano-arches subjected to dissimilar end conditions, Composite Structure, 2025 (in press). []
    • K.Wan. Seo, J. Park, S.I. Park, J.H. Song and Y.C. Yoon*, Image-Driven Hybrid Structural Analysis Based on Continuum Point Cloud Method with Boundary Capturing Technique, Sensors, 25(2): 410 (2025). []

  • 2024

    • P. Schaefferkoetter*, Y.C. Yoon and J.H. Song*, Three-Dimensional Continuum Point Cloud Method for Large Deformation and its Verification, Computer Methods in Applied Mechanics and Engineering,聽432: 117307 (2024). []

  • 2023

    • A. Almasi, Y.C. Yoon, T.Y. Kim, T. A. Laursen and J.H. Song*,聽A strong-form meshfree collocation method for modeling stationary cracks with frictional contact鈥嬧, International Journal of Non-Linear Mechanics,聽148:聽10429聽(2023). []
    • A. Almasi, T.Y. Kim and J.H. Song*, Strong form meshfree collocation method for frictional contact between a rigid pile and an elastic foundation.聽Engineering with Computers,聽39: 791-807, (2023). (Special issue on聽Computational Modeling based on Nonlocal Theory)聽[]
    • A. Beel聽and聽J.H. Song*,聽Strong-form meshfree collocation method for multi-body thermomechanical contact,聽Engineering with Computers,聽39: 89-108, (2023). (Special issue on聽Computational Modeling based on Nonlocal Theory)聽[]
    • P. Schae铿erkoetter, J. G. Michopoulos聽and J.H. Song*, Strong-form meshfree collocation method for non-equilibrium solidi铿乧ation of multi-component alloy,聽Engineering with Computers,聽39: 45-59, (2023). (Special issue on聽Computational Modeling based on Nonlocal Theory) []

  • 2021

    • Y.C. Yoon* and J.H. Song*, Interface immersed particle difference method for weak discontinuity in elliptic boundary value problems,聽Computer Methods in Applied Mechanics and Engineering,聽375: 113650 (2021). []

  • 2020

    • S.H. Lee*, S.I. Park, A. Almasi, J.H. Song*, Extended IFC-based strong form meshfree collocation analysis of a bridge structure, Automation in Construction. 119: 103364 (2020). []
    • I. Asareh, J.H. Song, R. L. Mullen and Y. Qian*, A general mass lumping scheme for the variants of the extended finite element method,聽International Journal for Numerical Methods in Engineering, 121: 2262-2284 (2020). []
    • T.Y. Kim*, W. Jiang, S. Lee, J.H. Song and E.J. Park, A Nitsche-type variational formulation for the shape deformation of a single component vesicle,聽Computer Methods in Applied Mechanics and Engineering, 359: 112661 (2020). []

  • 2019

    • A. Almasi, T.Y. Kim,聽T. A. Laursen,聽J.H. Song*, A strong form meshfree collocation method for frictional contact on a rigid obstacle,聽Computer Methods in Applied Mechanics and Engineering, 357: 112597 (2019). []
    • A. Almasi, A. Beel, T.Y. Kim, J. G. Michopoulos and J.H. Song*, Strong form collocation method for solidification and mechanical analysis of polycrystalline materials,聽ASCE Journal of Engineering Mechanics, 145: 04019082聽(2019). (Special issue on Recent Advances in Computational Methods in Engineering Mechanics) []
    • I. Asareh and聽 J.H. Song*, Non-nodal extended finite element method (NXFEM) for modeling crack with four-node quadrilateral elements, ASCE Journal of Engineering Mechanics, 145: 04019081 (2019). (Special issue on Recent Advances in Computational Methods in Engineering Mechanics) []
    • A. Beel, T.Y. Kim, W. Jiang and J.H. Song*, Strong form-based meshfree collocation method for wind-driven ocean circulation,聽Computer Methods in Applied Mechanics and Engineering, 351: 404-421 (2019). []
    • Y.C. Yoon*,聽P. Schaefferkoetter, T. Rabczuk and聽J.H. Song*, New strong formulation for material nonlinear problems based on the particle difference method,聽Engineering Analysis with Boundary Elements, 98: 310鈥327 (2019). []

  • 2018

    • I. Asareh, T.Y. Kim* and J.H. Song*, A linear complete extended finite element method for dynamic fracture simulation with non-nodal enrichments, Finite Elements in Analysis and Design, 152: 27-45 (2018). []
    • 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). []
    • 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). []
    • 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,聽International Journal of Mechanics and Materials in Design, 14: 491-509 (2018). []

  • 2017

    • Y. Fu*, J.G. Michopoulos and聽J.H. Song*, On investigating the thermomechanical properties of cross-linked epoxy via molecular dynamics analysis,聽Nanoscale and Microscale Thermophysical Engineering,聽21:8-25 (2017). []
    • Y. Fu, J.G. Michopoulos and聽J.H. Song*, Bridging the multi-phase field model with the molecular dynamics for the solidification of nano-crystals,聽Journal of Computational Science,聽20:187-197 (2017). []

  • 2016

    • K.C. Hoang,聽Y. Fu, and聽J.H. Song*, An聽hp-proper orthogonal decomposition-moving least squares approach for molecular dynamics simulation,聽Computer Methods in Applied Mechanics and Engineering,聽298: 548-575 (2016). []
    • J. Lua*, T. Zhang, E. Fang and聽J.H. Song*, Explicit phantom paired shell element approach for crack branching and impact damage prediction of aluminum structures,聽International Journal of Impact Engineering,聽87:28鈥43 (2016). []

  • 2015

    • Y. Fu*, J.G. Michopoulos and聽J.H. Song*,聽Dynamic response of聽 polyethylene polymer nanocomposites to shock wave loading,聽Journal of Polymer Science, Part B: Polymer Physics,聽53:聽1292-1302 (2015). []
    • Y. Fu*, J.G. Michopolous and聽闯.贬.听厂辞苍驳*, Coarse-grained molecular dynamics simulations of epoxy resin during the curing process,聽Computational Materials Science,聽107:聽24-32 (2015). []
    • Y. Fu* and聽闯.贬.听厂辞苍驳*, Heat flux expressions that satisfy the conservation laws in atomistic system involving multibody potentials,聽Journal of Computational Physics,聽294: 191鈥207 (2015). []
    • Y. Fu聽and聽J.H. Song*, Large deformation mechanism of glassy polyethyelene polymer nanocomposites: coarse grain molecular dynamics study,聽Computational Materials Science,聽96:聽485-494聽(2015). []
    • A. Tabarraeia*, S. Shadaloua and聽J.H. Song, Mechanical properties of Graphene nanoribbons with disordered edges,聽Computational Materials Science,聽96:听10-19聽(2015). []

  • 2014

    • A. Tabarraie*, X. Wang, A. Sadeghirad and聽J.H. Song, An enhanced bridging domain method for linking atomistic and continuum domains,聽Finite Elements in Analysis and Design,聽92:36-49聽(2014). []
    • Y. Fu* and聽J.H. Song*, On computing stress in polymer systems involving multi-body potentials from molecular dynamics simulation,聽Journal of Chemical Physics,聽141:聽054108聽(2014). []
    • J.H. Song*聽and Y.C. Yoon, Multiscale failure analysis with coarse-grained micro cracks and damage,聽Theoretical and Applied Fracture Mechanics,聽72: 100-109 (2014). []
    • Y.C. Yoon*聽and聽J.H. Song*, Extended particle difference method for moving boundary problems,聽Computational Mechanics,聽54:723鈥743聽(2014). 聽[]
    • Y.C. Yoon*聽and聽J.H. Song, Extended particle difference method for weak and strong discontinuity problems: Part II. Formulations and applications for various interfacial singularity problems,聽Computational Mechanics,聽53:1105-1128 (2014). []
    • Y.C. Yoon and聽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,聽Computational Mechanics,聽53:1087-1103 (2014). []

  • 2013

    • A. Tabarraei,聽J.H. Song*聽and H. Waisman, Two-scale approach for modeling adiabatic shear band propagation under impact loads,聽International Journal for Multiscale Computational Engineering,聽11: 543-563 (2013). []
    • J.H. Song*, P. Lea and J. Oswald, Explicit dynamic finite element method for predicting implosion/explosion induced failure of shell structures,聽Mathematical Problems in Engineering,聽2013: 957286 (2013).聽(Special issue on Computational Methods for Fracture) (Open access) []
    • J.H. Song*, T. Menouillard and A. Tabarraei, Explicit dynamic finite element method for failure with smooth fracture energy dissipations,聽Mathematical Problems in Engineering,聽2013: 293861 (2013).聽(Special issue on Computational Methods for Fracture) (Open access) []

  • 2012

    • H. Nguyen-Vinh, I. Bakar, M.A. Msekh,聽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,聽Engineering Fracture Mechanics,聽92:19-31 (2012). []
    • O. Barkai, T. Menouillard,聽J.H. Song, T. Belytschko and D. Sherman*, Crack initiation and path selection in brittle specimens: a novel experimental method and computations,聽Engineering Fracture Mechanics,聽89:65-74 (2012). []
    • T. Chau-Dinh, G. Zi*, P.S. Lee, T. Rabczuk, and聽J.H. Song, Phantom-node method for shell models with arbitrary cracks,聽Computer & Structure,聽92-93: 242-256 (2012). []

  • 2010

    • T. Belytschko*聽and聽J.H. Song, Coarse-graining of multiscale crack propagation,聽International Journal for Numerical Methods in Engineering,聽81:537鈥563 (2010). []
    • T. Rabczuk, R. Gracie,聽J.H. Song聽and T. Belytschko*, Immersed particle method for fluid-structure interaction,聽International Journal for Numerical Methods in Engineering,聽81:48鈥71 (2010).聽(Selected for the most cited article of the journal in 2012) []
    • T. Menouillard,聽J.H. Song, Q. Duan and T. Belytschko*, Time dependent crack tip enrichment for dynamic crack propagation,聽International Journal of Fracture,聽162: 33-49 (2010). []

  • 2009

    • Q. Duan,聽J.H. Song, T. Menouillard and T. Belytschko*, Element-local level set method for three-dimensional dynamic crack growth,聽International Journal for Numerical Methods in Engineering,聽80:1520鈥1543 (2009). []
    • J.H. Song*聽and T. Belytschko, Multiscale aggregating discontinuities method for micro-macro failure of composites,聽Composite Part B: Engineering,聽40:417-426 (2009). []
    • J.H. Song*聽and T. Belytschko, Dynamic fracture of shells subjected to impulsive loads,聽Journal of Applied Mechanics 鈥揟ransactions of the ASME,聽76:051301 (2009). []
    • T. Rabczuk,聽J.H. Song*聽and T. Belytschko, Simulations of instability in dynamic fracture by the cracking particles method,聽Engineering Fracture Mechanics,聽76:730-741 (2009). []
    • J.H. Song聽and T. Belytschko*, Cracking node method for dynamic fracture with finite elements,聽International Journal for Numerical Methods in Engineering,聽77:360-385 (2009). []

  • 2008

    • J.H. Song, H.W. Wang and T. Belytschko*, A comparative study on finite element methods for dynamic fracture,聽Computational Mechanics,聽42:239-250 (2008). []
    • T. Belytschko*, S. Loehnert and聽J.H. Song, Multiscale aggregating discontinuities: A method for circumventing loss of material stability,聽International Journal for Numerical Methods in Engineering,聽73: 869-894 (2008).聽(Selected for the virtual issue honoring the work of Ted Belytschko, IJNME Editor Emeritus, in 2014) []

  • 2006

    • J.H. Song, P.M.A. Areias and T. Belytschko*, A method for dynamic crack and shear band propagation with phantom nodes,聽International Journal for Numerical Methods in Engineering,聽67: 868-893 (2006). []
    • P.M.A. Areias,聽J.H. Song聽and T. Belytschko*, Analysis of fracture in thin shells by overlapping paired elements,聽Computer Methods in Applied Mechanics and Engineering,聽195: 5343-5360 (2006). []

  • 2005

    • P.M.A. Areias,聽J.H. Song聽and T. Belytschko*, A finite-strain quadrilateral shell element based on discrete Kirchhoff-Love constraints,聽International Journal for Numerical Methods in Engineering,聽64: 1166-1206 (2005). []
    • G. Zi*,聽J.H. Song聽and S.H. Lee, A new method for growing multiple cracks without remeshing and its application to fatigue crack growth,聽KSCE, Journal of the Korean Society of Civil Engineers,聽25:183-190 (2005). (In Korean)

  • 2004

    • G. Zi*,聽J.H. Song, E. Budyn, S.H. Lee and T. Belytschko, A new method for multiple cracks and its application to fatigue crack growth,聽Modeling and Simulations in Materials Science and Engineering,聽12: 901-915 (2004).聽(Selected for the most downloaded article of the year in 2004 and included in the selected publications of Institute of Physics, IOP Journal)
    • S.H. Lee*,聽J.H. Song, Y.C. Yoon, G. Zi and T. Belytschko, Combined extended and superimposed finite element method for crack,聽International Journal for Numerical Methods in Engineering,聽59: 1119-1136 (2004).

  • 2003

    • S.H. Lee*,聽J.H. Song聽and M.Y. Kim, Crack propagation analysis without mesh-dependency by using extended finite element method,聽KSCE, Journal of the Korean Society of Civil Engineers,聽23: 1077-1086 (2003). (In Korean)

Book

  • T. Rabczuk,聽J.H. Song, X. Zhuang and C. Anitescu,聽Extended Finite Element and Meshfree Methods, Academic Press,聽Elsevier,聽(2019). []

Chapters in Book

  • T.Y. Kim, J.H. Song and T. A. Laursen, A strong form meshfree collocation method: engineering applications including frictional contact.聽Current Trends and Open Problems in Computational Mechanics,聽F. Aldakheel, B. Hudobivnik,聽M. Soleimani,聽H. Wessels, C. Wei脽enfels, M. Marino聽(Eds.),聽Springer聽(2022).聽[]
  • J.G. Michopoulos, A. Iliopoulos, J. Steuben, A. Birnbaum, N. Apetre, J.H. Song, Y. Fu, A. Achuthan, R. Saunders, A. Bagchi, R. Fonda, D. Rowenhorst, S. Olig, F. Martin, J. Moran and A. Ntiros, Multiphysics Integrated Computational Materials Engineering Linking Additive Manufacturing Process Parameters with Part Performance. Advances in Computers and Information in Engineering Research, Volume 2. J.G. Michopoulos, C.J. Paredis, D.W. Rosen and J.M. Vance, JM. (Eds),聽ASME (2021). []
  • J.H. Song聽and T. Menouillard, Explicit dynamic finite element method for fracture of Shells,聽Computational Mechanics Research Trends: Computer Science, Technology and Applications, H. P. Berger (Eds.), Nova Science Publisher, pp. 291-317 (2010).
  • T. Belytschko,聽J.H. Song, H.W. Wang and R. Gracie, On applications of XFEM to dynamic fracture and dislocations,聽IUTAM Symposium on Discretization Methods for Evolving Discontinuities.聽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).

Conference Proceedings

  • T.Y. Kim, W. Jiang, S.M. Lee, J.H. Song and聽E.J. Park, Vesicle shape deformation using a discontinuous Galerkin method, Proceedings of the 6th European Conference on Computational Mechanics (ECCM 6) and聽7th European Conference on Computational Fluid Dynamics, 1886-1895 (2018).
  • J. G. Michopoulos, A. Iliopoulos, J. Steuben, A. J. Birnbaum,聽Y. Fu聽and聽J.H. Song, Towards computational synthesis of microstructural crystalline morphologies for additive manufacturing applications,聽ASME. International Design Engineering Technical Conferences and Computers and Information in Engineering Conference, Volume 1: 37th Computers and Information in Engineering Conference: V001T02A030 (2017).
  • S.H. Lee,聽J.H. Song聽and H.M. Seok, Combined extended and superimposed finite element method for crack analysis,聽Proceedings of Computational Structural Engineering Institute of聽Korea,聽17(1): 341-348 (2004).聽 (In Korean)
  • S.H. Lee and聽J.H. Song, Development of crack analysis technique by using extended finite element method free from mesh-dependency,聽Proceedings of Computational Structural Engineering聽Institute of Korea,聽15(2): 112- 119 (2002).聽 (In Korean)
  • S.H. Lee,聽J.H. Song聽and K.H. Leem, Modified stiffness matrix of reflecting the effect of local cracks,聽Proceedings of Computational Structural Engineering Institute of Korea,聽15(1): 353-360 (2002).聽 (In Korean)
  • S.H. Lee,聽J.H. Song聽and Y.S. Jeong, Development of a finite element analysis data model for steel box girder bridges based on STEP part 104,聽Proceedings of Computational Structural Engineering Institute of Korea,聽14(2): 193-200 (2001).聽 (In Korean)