2004

  1. B.H. Ji and H.J. Gao, “A Study of Fracture Mechanisms in Biological Nano-Composites via the Virtual Internal Bond Model,” 2004, Materials Science & Engineering A, Vol. 366, pp. 96-103.
  2. D.X. Cui, F. Tian, Y. Kong, I. Titushikin and H.J. Gao, “Effects of Single-Walled Carbon Nanotubes on the Polymerase Chain Reaction,” 2004, Nanotechnology, Vol. 15, pp. 154-157.
  3. B. Chen, Y.G. Huang, H.J. Gao, and P.D. Wu, “Shear Crack Propagation along Weak Planes in Solids: A finite deformation analysis incorporating the linear harmonic potential,” 2004, International Journal of Solids and Structures, Vol. 41, pp 1-14.
  4. M.J. Buehler and H.J. Gao, “Biegen und Brechen im Supercomputer,” 2004, Physik in Unserer Zeit, Vol. 35 (1), pp. 30-37.
  5. Y.G. Huang, S.X. Qu, K.C. Hwang, M. Li and H.J. Gao, “A Conventional Theory of Mechanism-Based Strain Gradient Plasticity,” 2004, International Journal of Plasticity, Vol. 20, pp. 753-782.
  6. H.J. Gao and Y. Kong, “Simulation of DNA-Nanotube Interactions,” 2004, Annual Review of Materials Research, Vol. 34, pp. 123-150.
  7. M.J. Buehler, H.J. Gao and Y. Huang, “Atomistic and Continuum Studies of Stress and Strain Fields near a Rapidly Propagating Crack in a Harmonic Lattice,” 2004, Theoretical and Applied Fracture Mechanics, Vol. 41, pp. 21-42.
  8. H.J. Gao, B.H. Ji, M.J. Buehler and H.M. Yao, “Flaw Tolerant Bulk and Surface Nanostructures of Biological Systems,” 2004, Molecular and Cellular Biomechanics, Vol. 1 (1), pp. 37-52.
  9. Z.R. Liu and H.J. Gao, “A Differential Cluster Variation Method for Analysis of Spinodal Decomposition in Alloys,” 2004, European Physical Journal B, Vol. 37, pp. 369–374.
  10. Y. Guo, Y. Kong, W.L. Guo and H.J. Gao, “Structural Transition of Copper Nanowires Confined in Single-Walled Carbon Nanotubes,” 2004, Journal of Computational and Theoretical Nanoscience, Vol. 1 (1), pp. 93-98.
  11. B. Chen, Y.G. Huang, H.J. Gao and W. Yang, “On the Finite Opening of Intersonic Shear Cracks,”2004, International Journal of Solids and Structures, Vol. 41, pp. 2293-2306.
  12. H.J. Gao and H.M. Yao, “Shape Insensitive Optimal Adhesion of Nanoscale Fibrillar Structures,” 2004, Proceedings of the National Academy of Sciences of USA, Vol. 101, pp. 7851-7856.
  13. M.X. Shi, Y.G. Huang and H.J. Gao, “The J-integral and Geometrically Necessary Dislocations in Nonuniform Plastic Deformation,” 2004, International Journal of Plasticity, Vol. 20, pp. 1739–1762.
  14. M.J. Buehler, A. Hartmaier and H.J. Gao, “Hierarchical Multi-Scale Modeling of Constrained Diffusional Creep in Thin Films,” 2004, Modeling and Simulations in Materials Science and Engineering, Vol. 12, pp. S391-S413.
  15. D.X. Cui, C.S.Ozkan, S. Ravindran, Y. Kong and H.J. Gao, “Encapsulation of Pt-Labelled DNA Molecules Inside Carbon Nanotubes,” 2004, Molecular and Cellular Biomechanics, Vol. 1 (2), pp. 113-122.
  16. T.D. Nguyen , S. Govindjee , P.A. Klein and H.J. Gao, “A Rate-Dependent Cohesive Continuum Model for the Study of Crack Dynamics,” 2004, Computer Methods in Applied Mechanics and Engineering, Vol. 193, pp. 3239-3265.
  17. M.J. Buehler, Y. Kong, and H.J. Gao, “Deformation Mechanisms of Very Long Single-Wall Carbon Nanotubes Subject to Compressive Loading,” 2004, Journal of Engineering Materials and Technology, Vol. 126 (3), pp. 245-249.
  18. D.L. Shi, X.Q. Feng, Y.G. Huang, K.C. Hwang and H.J. Gao, “The Effect of Nanotube Waviness and Agglomeration on the Elastic Property of Carbon Nanotube-Reinforced Composites,” 2004, Journal of Engineering Materials and Technology, Vol. 126 (3), pp. 250-257.
  19. B.H. Ji and H.J. Gao, “Mechanical Properties of Nanostructure of Biological Materials,” 2004, Journal of the Mechanics and Physics of Solids, Vol. 52 (9), pp. 1963-1990.
  20. H.L. Zhang, P.Z. Huang, J. Sun and H.J. Gao, “Morphological Healing Evolution of Penny-Shaped Fatigue Microcracks in Pure Iron at Elevated Temperatures,” 2004, Applied Physics Letters, Vol. 85 (7), pp. 1143-1145.
  21. M.J. Buehler and H.J. Gao, “A Mother-Daughter-Granddaughter Mechanism of Shear Dominated Intersonic Crack Motion along Interfaces of Dissimilar Materials,” 2004, Journal of the Chinese Institute of Engineers, Vol. 27 (6), pp. 763-769.
  22. B.H. Ji, H.J. Gao and T.C. Wang, “Flow Stress of Biomorphous Metal Matrix Composites,” 2004, Materials Science & Engineering A, Vol. 386 (1-2), pp. 435-441.
  23. M.J. Buehler, A. Hartmaier, H.J. Gao, M. Duchaineau and F.F. Abraham, “Atomic Plasticity: Description and Analysis of a One-Billion Atom Simulation of Ductile Materials Failure,” 2004, Computer Methods in Applied Mechanics and Engineering, Vol. 193 (48-51), 5257-5282.
  24. B.H. Ji, H.J. Gao and K.J. Hsia, “How Do Slender Mineral Crystals Resist Buckling in Biological Materials?” 2004, Philosophical Magazine Letters, Vol. 84 (10), pp. 631-641.
  25. M.J. Buehler, F.F. Abraham and H.J. Gao, “Stress and Energy Flow Field near a Rapidly Propagating Mode I Crack”. Multiscale Modelling and Simulation, Springer Lecture Notes in Computational Science and Engineering, Vol. 39, Eds. Attinger, Sabine; Koumoutsakos, Petros, ISBN 3-540-21180-2, pp. 143-156, 2004.
  26. T.M. Michelitsch, J.Z. Wang, H.J. Gao and V.M. Levin, “On the Solution of the Inhomogeneous Helmholtz Wave Equation for Ellipsoidal Sources,” Continuum Models and Discrete Systems, eds. D. Bergman et al., Kluwer Academic Publishers, The Netherlands, pp. 115-122, 2004.
  27. D.X. Cui, C.S. Ozkan, Y. Kong and H.J. Gao, “Experimental Study of Filling Carbon Nanotubes With Nucleic Acids,” 2004, Materials Research Symposium Proceedings, Vol. 820 , pp. O4.6.1-6.
  28. M.J. Buehler, A. Hartmaier and H.J. Gao, “Constrained Grain Boundary Diffusion in Thin Copper Films,” 2004, Materials Research Symposium Proceedings, Vol. 821, pp. P1.2.1-6.
  29. H.J. Gao, B.H. Ji, M.J. Buehler and H.M. Yao, “Flaw Tolerant Bulk and Surface Nanostructures of Biological Systems,” 2004, Proceedings of the 2004 International Conference on Computational & Experimental Engineering & Sciences, Tech Science Press, Chapter 3, pp. 146-151.
  30. A. Hartmaier, X. Ma and H.J. Gao, “Grain-Structure Evolution after Surface Plastic Deformation of Nanocrystals,” 2004, Proceedings of the 25th Riso International Symposium on Materials Science: Evolution of Deformation Microstructures in 3D, (C. Gundlach, K. Haldrup, N. Hansen, X. Huang, D. Juul Jensen, T. Leffers, Z.J. Li, S.F. Nielsen, W. Pantleon, J.A. Wert, G. Winther, eds.), Publisher: Riso National Laboratory, Roskilde, Denmark, pp. 323-328.
  31. M.J. Buehler, F.F. Abraham and H.J. Gao, “Hyoerelastic Effects in Brittle Materials Failure,” 2004, Materials Research Symposium Proceedings, Vol. 821, pp. P6.3.1-6.3.6.

2003

  1. K.C. Hwang, H.Q. Jiang, Y.G. Huang and H.J. Gao, “Finite Deformation Analysis of Mechanism-based Strain Gradient Plasticity: Torsion and Crack Tip Field,” 2003, International Journal of Plasticity, Vol. 19, pp. 235 – 251.
  2. H.J. Gao and Y.G. Huang, “Geometrically Necessary Dislocation and Size-Dependent Plasticity,” 2003, Scripta Materialia, Vol. 48, pp. 113-118.
  3. X. Qiu, Y.G. Huang, Y. Wei, H.J. Gao and K.C. Hwang, “The Flow Theory of Mechanism-Based Strain Gradient Plasticity,” 2003, Mechanics of Materials, Vol. 35, pp. 245-258.
  4. P. Huang, Z. Li, J. Sun and H.J. Gao, “Morphological Healing Evolution of Intragranular Penny-Shaped Microcracks by Surface Diffusion: Part I. Simulation,” 2003, Metallurgical And Materials Transactions A-Physical Metallurgy And Materials Science, Vol. 34, pp. 277-285.
  5. H. Zhang, J. Sun and H.J. Gao, “Morphological Healing Evolution of Intragranular Penny-Shaped Microcracks by Surface Diffusion: Part II. Experiments,” 2003, Metallurgical and Materials Transactions A-Physical Metallurgy And Materials Science, Vol. 34, pp. 287-294.
  6. T.C. Chang and H.J. Gao, “Size-Dependent Elastic Properties of a Single-Walled Carbon Nanotube via a Molecular Mechanics Model,” 2003, Journal of the Mechanics and Physics of Solids, Vol. 51, pp. 1059-1074.
  7. T.M. Michelitsch, V.M. Levin and H.J. Gao, “Dynamic Eshelby Tensor and Potentials for Ellipsoidal Inclusions,” 2003, Proceedings of the Royal Society of London A, Vol. 459, pp. 863-890.
  8. T.M. Michelitsch and H.J. Gao, “Dynamic Eshelby Inclusion Problem in a Quasiplane Transversely Isotropic Piezoelectric Medium,” 2003, Chinese Journal of Mechanics-Series A, Vol. 19, pp. 113-118.
  9. H.J. Gao, Y. Kong, D.X. Cui and C.S. Ozkan, “Spontaneous Insertion of DNA Oligonucleotides into Carbon Nanotubes,” 2003, Nano Letters, Vol. 3, pp. 471-473.
  10. H.J. Gao, B.H. Ji, I.L. Jaeger, E. Arzt and P. Fratzl, “Materials Become Insensitive to Flaws at Nanoscale: Lessons from Nature,” 2003, Proceedings of the National Academy of Sciences of USA, Vol. 100, pp. 5597–5600.
  11. H.J. Gao and B.H. Ji, “Modeling Fracture in Nano-Materials via a Virtual Internal Bond Method,” 2003, Engineering Fracture Mechanics, Vol. 70, pp. 1777–1791.
  12. Y.A. Antipov, T.J. Chuang and H.J. Gao, “On the Integro-Differential Equation Associated with Diffusive Crack Growth Theory,” 2003, Quarterly Journal of Mechanics and Applied Mathematics, Vol. 56, pp. 289-310.
  13. Z.R. Liu, H.J. Gao, L. Q. Chen and K.J. Cho, “Patterned Nanostructure in AgCo/Pt/Mgo(001) Thin Films,” 2003, Physical Review B, Vol. 68, pp. 035429-1-7.
  14. W.L. Guo, Y. Guo, H.J. Gao, Q.S. Zheng and W. Zhong, “Energy Dissipation in Gigahertz Oscillators from Multiwalled Carbon Nanotubes,” 2003, Physical Review Letters, Vol. 91, pp. 125501-1-4.
  15. J.Z. Wang, T. M. Michelitsch and H.J. Gao, “Dynamic Fiber Inclusions with Elliptical and Arbitrary Cross-sections and Related Retarded Potentials in a Quasi-Plane Piezoelectric Medium,” 2003, International Journal of Solids and Structures, Vol. 40, pp. 6307-6333.
  16. M.J. Buehler, H.J. Gao and Y.G. Huang, “Atomic and Continuum Studies of a Suddenly Stopping Supersonic Crack,” 2003, Computational Materials Science, Vol. 28, pp. 385-408.
  17. H.Q. Jiang, P. Zhang, B. Liu, Y.G. Huang, P.H. Geubelle, H.J. Gao and K.C. Hwang, “The Effect of Nanotube Radius on the Constitutive Model for Carbon Nanotubes,” 2003, Computational Materials Science, Vol. 28, pp 429-442.
  18. J.Z. Wang, Y.H. Zhou and H.J. Gao, “Computation of the Laplace Inverse Transform by Application of the Wavelet Theory,” 2003, Communications In Numerical Methods In Engineering, Vol. 19, pp. 959–975.
  19. M.J. Buehler, A. Hartmaier and H.J. Gao, “Atomistic and Continuum Studies of Crack-like Diffusion Wedges and Associated Dislocation Mechanisms in Thin Films on Substrates,” 2003, Journal of the Mechanics and Physics of Solids, Vol. 51, pp. 2105-2125.
  20. M.J. Buehler, F.F. Abraham and H.J. Gao, “Hyperelasticity Governs Dynamic Fracture at a Critical Length Scale,” 2003, Nature, Vol. 426, pp. 141-146.
  21. T. M. Michelitsch, H.J. Gao and V.M. Levin, “On the Dynamic Potentials of Ellipsoidal Shells,” 2003, The Quarterly Journal of Mechanics and Applied Mathematics, Vol. 56, No. 4, pp. 629-648.
  22. A. Hartmaier, M.J. Buehler, and H.J. Gao, “A Discrete Dislocation Plasticity Model of Creep in Polycrystalline Thin Films,” 2003, Defects And Diffusion In Metals: An Annual Retrospective VI. Defect and Diffusion Forum, Vol. 224-2, pp. 107-125.
  23. H.J. Gao and B.H. Ji, “Modeling Fracture in Nanomaterials,” Asymptotics, Singularities and Homogenisation in Problems of Mechanics, ed. A.B. Movchan, Kluwer Academic Publishers, London, pp. 307-316, 2003.
  24. V. M. Levin, T. M. Michelitsch and H.J. Gao, “Modeling of the Effective Dynamic Characteristics of Fiber Reinforced Transversely Isotropic Piezoelectric Materials”, 2003, in Smart Materials and Structures, Proceedings SPIE (ed. C. Lynch), Vol. 3069, pp. 4699-4714.
  25. M. Buehler, A. Hartmaier and H.J. Gao, “Atomistic and Continuum Studies of Diffusional Creep and Associated Dislocation Mechanisms in Thin Films on Substrates,” 2003, Materials Research Symposium Proceedings, Vol. 779, pp. W4.7.1-6.
  26. D.X. Cui, F.R. Tian, Y. Kong, C.S. Ozkan, I. Titushikin and H.J. Gao, “Effects of Single-Walled Carbon Nanotube on Polymerase Chain Reaction,” 2003, Materials Research Symposium Proceedings, Vol. 773, pp. N2.3.1-5.
  27. Y. Kong, D.X. Cui, C.S. Ozkan and H.J. Gao, “Modeling Carbon Nanotube Based Bio-Nano Systems: A Molecular Dynamics Study,” 2003, Materials Research Symposium Proceedings, Vol. 773 , pp. N8.5.1-6.