Journal Publications

Surface Cauchy-Born Papers | Nanowire Papers |  Multiscale Papers | Meshfree Papers |  Book Chapters | Books  | Edited Journal Special Issues 

Graduate students are noted in red.

Surface Cauchy-Born Papers

  1. H.S. Park and P.A. Klein. Surface Stress Effects on the Resonant Properties of Metal Nanowires: The Importance of Finite Deformation Kinematics and the Impact of the Residual Surface Stress, accepted for publication in Journal of the Mechanics and Physics of Solids 2008.
  2. H.S. Park and P.A. Klein. A Surface Cauchy-Born Model for Silicon Nanostructures, Computer Methods in Applied Mechanics and Engineering 2008; 197:3249-3260. (Invited paper: Special issue on Recent Advances in Computational Study of Nanostructures).
  3. G. Yun and H.S. Park. A Multiscale, Finite Deformation Formulation for Surface Stress Effects on the Coupled Thermomechanical Behavior of Nanomaterials, Computer Methods in Applied Mechanics and Engineering 2008; 197:3337-3350. (Invited paper: Special issue on Recent Advances in Computational Study of Nanostructures).
  4. G. Yun and H.S. Park. A Finite Element Formulation for Nanoscale Resonant Mass Sensing Using the Surface Cauchy-Born Model, Computer Methods in Applied Mechanics and Engineering 2008; 197:3324-3336. (Invited paper: Special issue on Recent Advances in Computational Study of Nanostructures).
  5. H.S. Park. Strain Sensing Through the Resonant Properties of Deformed Metal Nanowires, Journal of Applied Physics 2008; 104:013516. (Also selected for publication in the Virtual Journal of Nanoscale Science and Technology, July 21, 2008).
  6. H.S. Park. Surface Stress Effects on the Resonant Properties of Silicon Nanowires, Journal of Applied Physics 2008; 103:123504. (Also selected for publication in the Virtual Journal of Nanoscale Science and Technology, June 30, 2008.)
  7. H.S. Park and P.A. Klein. Surface Cauchy-Born Analysis of Surface Stress Effects on Metallic Nanowires, Physical Review B 2007; 75:085408. (Also selected for publication in the Virtual Journal of Nanoscale Science and Technology, Feb. 19, 2007.)
  8. H.S. Park, P.A. Klein and G.J. Wagner. A Surface Cauchy-Born Model for Nanoscale Materials, International Journal for Numerical Methods in Engineering 2006; 68:1072-1095.

Nanowire Papers

  1. C. Ji and H.S. Park. The Coupled Effects of Geometry and Surface Orientation on the Mechanical Properties of Metal Nanowires, Nanotechnology 2007; 18:305704.
  2. H.S. Park and V. Laohom. Surface Composition Effects on Martensitic Phase Transformations in Nickel Aluminum Nanowires, Philosophical Magazine 2007; 87:2159-2168. (Invited paper: Special Issue on Nanowires).
  3. C. Ji and H.S. Park. The Effects of Defects on the Mechanical Behavior of Silver Shape Memory Nanowires, Journal of Theoretical and Computational Nanoscience 2007; 4:578-587.
  4. Q. Pu, Y. Leng, L. Tsetseris, H.S. Park, S.T. Pantelides and P.T. Cummings. Molecular Dynamics Simulations of Stretched Gold Nanowires - The Relative Utility of Different Semimempirical Potentials, Journal of Chemical Physics 2007; 126:144707.
  5. C. Ji and H.S. Park. Characterizing the Elasticity of Hollow Metal Nanowires, Nanotechnology 2007; 18:115707.
  6. C. Ji and H.S. Park. Geometric Effects on the Inelastic Deformation of Metal Nanowires, Applied Physics Letters 2006; 89:181916. (Also selected for publication in the Virtual Journal of Nanoscale Science and Technology, Nov. 13, 2006.)
  7. H.S. Park, K. Gall and J.A. Zimmerman. Deformation of FCC Nanowires by Twinning and Slip, Journal of the Mechanics and Physics of Solids 2006; 54 (9):1862-1881.
  8. H.S. Park and C. Ji. On the Thermomechanical Deformation of Silver Shape Memory Nanowires, Acta Materialia 2006; 54 (10):2645-2654.
  9. H.S. Park. Stress-Induced Martensitic Phase Transformation in Intermetallic Nickel Aluminum Nanowires, Nano Letters 2006; 6 (5): 958-962.
  10. H.S. Park and J.A. Zimmerman. Stable Nanobridge Formation in <110> Gold Nanowires under Tensile Deformation, Scripta Materialia 2006; 54 (6): 1127-1132.
  11. H.S. Park, K. Gall and J.A. Zimmerman. Shape Memory and Pseudoelasticity in Metal Nanowires, Physical Review Letters 2005; 95:255504. (Also selected for publication in the Virtual Journal of Nanoscale Science and Technology, Dec. 25, 2005.)
  12. H.S. Park and J.A. Zimmerman. Modeling Inelasticity and Failure in Gold Nanowires, Physical Review B 2005; 72:054106.

Multiscale Papers

  1. D.E. Farrell, H.S. Park and W.K. Liu. Implementation Aspects of the Bridging Scale Method and Application to Intersonic Crack Propagation, International Journal for Numerical Methods in Engineering 2007; 71:583-605.
  2. E.G. Karpov, H.S. Park and W.K. Liu. A Phonon Heat Bath Approach for the Atomistic and Multiscale Simulation of Solids, International Journal for Numerical Methods in Engineering 2007; 70:351-378.
  3. E.G. Karpov, H. Yu, H.S. Park, W.K. Liu, J. Wang and D. Qian. Multiscale Boundary Conditions in Crystalline Solids: Theory and Application to Nanoindentation, International Journal of Solids and Structures 2006; 43:6359-6379.
  4. W.K. Liu, H.S. Park, D. Qian, E.G. Karpov, H. Kadowaki and G.J. Wagner. Bridging Scale Methods for Nanomechanics and Materials, Computer Methods in Applied Mechanics and Engineering 2006; 195:1407-1421. (Invited paper: Special Issue In Honor of the 60th Birthday of Prof. T.J.R. Hughes).
  5. H.S. Park, E.G. Karpov, P.A. Klein and W.K.Liu. Three-Dimensional Bridging Scale Analysis of Dynamic Fracture, Journal of Computational Physics 2005; 207:588-609.
  6. H.S. Park, E.G. Karpov and W.K. Liu. Non-reflecting Boundary Conditions for Atomistic, Continuum and Coupled Atomistic/Continuum Simulations, International Journal for Numerical Methods in Engineering 2005; 64:237-259.
  7. H.S. Park, E.G. Karpov, W.K. Liu and P.A. Klein. The Bridging Scale for Two-Dimensional Atomistic/Continuum Coupling, Philosophical Magazine 2005; 85 (1): 79-113.
  8. H.S. Park, E.G. Karpov and W.K. Liu. A Temperature Equation for Coupled Atomistic/Continuum Simulations, Computer Methods in Applied Mechanics and Engineering 2004; 193: 1713-1732. (Invited paper: Special Issue on Multiple Scale Methods for Nanoscale Mechanics and Materials).
  9. H.S. Park and W.K. Liu. An Introduction and Tutorial on Multiple Scale Analysis in Solids, Computer Methods in Applied Mechanics and Engineering 2004; 193: 1733-1772. (Invited paper: Special Issue on Multiple Scale Methods for Nanoscale Mechanics and Materials).
  10. W.K. Liu, E.G. Karpov, S. Zhang and H.S. Park. An Introduction to Computational Nano Mechanics and Materials, Computer Methods in Applied Mechanics and Engineering 2004; 193: 1529-1578. (Invited paper: Special Issue on Multiple Scale Methods for Nanoscale Mechanics and Materials).

Meshfree Papers

  1. S. Hao, H.S. Park and W.K. Liu. Moving Particle Finite Element Method, International Journal for Numerical Methods in Engineering 2002; 53:1937-1958.

Invited Chapters in Books

  1. H.S. Park and P.A. Klein. Multiscale Models for Surface Effects on Nanomaterials, Springer Series: Challenges and Advances in Computational Chemistry and Physics, editor Jerzy Leszczynski, Springer 2008.
  2. W.K. Liu, H.S. Park, E.G. Karpov and D.E. Farrell. Bridging Scale Method and its Applications, Meshfree Methods for Partial Differential Equations III, editors M. Griebel and M.A. Schweitzer, Springer 2007, ISBN: 3540462147.
  3. W.K. Liu and H.S. Park. Bridging Scale Methods for Computational Nanotechnology, Handbook of Theoretical and Computational Nanotechnology, editors M. Rieth and W. Schommers, 2006, ISBN: 1-58883-042-X.
  4. W.K. Liu, L.T. Zhang, E.G. Karpov, H. Kadowaki and H.S Park. Bridging Scale Methods, Springer Lecture Notes in Computational Science and Engineering, editors T. Barth, M. Griebel, D.E. Keyes, R.M. Nieminen, D. Roose and T. Schlick, 2005, ISSN: 1439-7358.
  5. W.K. Liu, H.S. Park, E.G. Karpov, H. Kadowaki, G.J. Wagner, D. Qian and S. Li. Bridging Scale Mechanics and Materials, Finite Element Methods: 1970s and Beyond–A book dedicated to Thomas J.R. Hughes, editors L.P. Franca, T.E. Tezduyar and A. Masud. International Center for Numerical Methods and Engineering (CINME), ISBN: 84-95999-49-8, 72-88 2004.

Books

  1. W.K. Liu, E.G. Karpov and H.S. Park. Nano Mechanics and Materials: Theory, Multiscale Methods and Applications, John Wiley and Sons, ISBN:0-470-01851-8, 2006.

Edited Journal Special Issues

  1. Special issue on Recent Advances in Computational Study of Nanostructures, Computer Methods in Applied Mechanics and Engineering 2008; 197:3173-3418 (co-editors J. Fish, H.E. Fang and H. Huang).