Harold S. Park

PUBLICATIONS

• H.S. Park and V. Laohom*. “Surface Composition Effects on Stress-Induced Martensitic Phase Transformations in Nickel Aluminum Nanowires”, submitted to Philosophical Magazine 2006. (Invited paper: Special Issue on Nanowires).

• D.E. Farrell, H.S. Park and W.K. Liu. “Implementation Aspects of the Bridging Scale Method and Application to Intersonic Crack Propagation”, submitted to International Journal for Numerical Methods in Engineering 2006.

• C. Ji* and H.S. Park. “On the Role of Defects on the Uniaxial Deformation of Silver Shape Memory Nanowires”, submitted to Journal of Computational and Theoretical Nanoscience 2006.

• E.G. Karpov, H.S. Park and W.K. Liu. “A Phonon Heat Bath Approach for the Atomistic and Multiscale Simulation of Solids”, accepted for publication in International Journal for Numerical Methods in Engineering 2006.

• H.S. Park, P.A. Klein and G.J. Wagner. “A Surface Cauchy-Born Model for Nanoscale Materials”, accepted for publication in International Journal for Numerical Methods in Engineering 2006.

• 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”, accepted for publication in International Journal of Solids and Structures 2006.

• 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.

• H.S. Park and C. Ji*. “On the Thermomechanical Deformation of Silver Shape Memory Nanowires”, Acta Materialia 2006; 54 (10):2645-2654.

• H.S. Park. “Stress-Induced Martensitic Phase Transformation in Intermetallic Nickel Aluminum Nanowires”, Nano Letters 2006; 6 (5): 958-962.

• H.S. Park and J.A. Zimmerman. “Stable Nanobridge Formation in <110> Gold Nanowires under Tensile Deformation”, Scripta Materialia 2006; 54 (6): 1127-1132.

• 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).

• H.S. Park, K. Gall and J.A. Zimmerman. “Shape Memory and Pseudoelasticity in Metal Nanowires”, Physical Review Letters 2005; 95:255504.

• H.S. Park and J.A. Zimmerman. “Modeling Inelasticity and Failure in Gold Nanowires”, Physical Review B 2005; 72:054106.

• 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.

• 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.

• 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.

• 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).

• 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).

• 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).

• 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.

• W.K. Liu, E.G. Karpov and H.S. Park. “Nanomechanics and Materials: Theory, Multiple Scale Analysis and Applications”, John Wiley and Sons, ISBN:0-470-01851-8, 2006.

• W.K. Liu and H.S. Park. “Bridging Scale Methods for Computational Nanotechnology”, to appear in Handbook of Theoretical and Computational Nanotechnology, editors M. Rieth and W. Schommers, 2005.

• 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.

• 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: 1970’s 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.

• H.S. Park, P.A. Klein and G.J. Wagner. “A Surface Cauchy-Born Model for Nanoscale Materials”, SES 2006, Penn State, August 2006.

• H.S. Park, P.A. Klein and G.J. Wagner. “A Surface Cauchy-Born Model for Nanoscale Materials”, WCCM VII, Los Angeles, July 2006.

• E.G. Karpov, D. Qian, H.S. Park and W.K. Liu. “Bridging Scale and Domain Reduction Approaches to Multiscale Computations”, AtC Coupling Methods Workshop, Sandia National Laboratories, March 2006.

• H.S. Park. “Atomistic and Multiple Scale Modeling of Nanoscale Materials”, Oak Ridge National Laboratories, January 2006.

• H.S. Park. “Concurrent and Hierarchical Multiscale Modeling of Solids”, Georgia Institute of Technology, January 2006.

• H.S. Park. “Modeling and Simulation of Nanoscale Materials”, Florida International University, November 2005.

• H.S. Park. “Multiple Scale Methods for Solid Mechanics”, Workshop on Multiscale Modeling in Solids, Centre de Recherches Mathematiques, Toronto, April 2005.

• H.S. Park. “Multiple Scale Methods for Solid Mechanics.” Rice University, April 2005.

• H.S. Park. “Multiple Scale Methods for Solid Mechanics.” University of Colorado at Boulder, March 2005.

• H.S. Park. “Multiple Scale Methods for Solid Mechanics.” Texas A&M University, March 2005.

• H.S. Park. “Multiple Scale Methods for Solid Mechanics.” Vanderbilt University, January 2005.

• H.S. Park, E.G. Karpov, P.A. Klein and W.K. Liu. “Atomistic/Continuum Coupling using the Bridging Scale”, (Keynote Lecture), WCCM VI, Beijing, September 2004.

• H.S. Park. “Multiple Scale Methods for Solid Mechanics.” Sandia National Laboratories, Livermore, CA, April 2004.

• H.S. Park. “Multiple Scale Methods for the Design and Analysis of Solids.” Virginia Polytechnic Institute, April 2004.