G. J. WENG

  1. G.J. Weng and C.T. Sun: Effects of fiber length on the elastic moduli of randomly oriented chopped-fiber composites, in Composite Materials: Testing and Design, edited by S.W. Tsai, ASTM-STP-674, 149-162, 1979.

  2. G.J. Weng: Theoretical principles for the determination of two kinds of composite plasticity: inclusions plastic vs. matrix plastic, in Mechanics of Composite Materials, edited by G.J. Dvorak and N. Laws, ASME AMD-Vol. 92, New York, 193-208, 1988.

  3. Z.G. Zhu and G.J. Weng: Micromechanics of high-temperature deformation in particle-reinforced materials, in Advances in Plasticity, edited by A.S. Khan and M. Tokuda, Pergamon Press, Oxford, 595-598, 1989.

  4. Y.M. Wang and G.J. Weng: Self-similar void growth in viscoelastic media, in Damage Mechanics in Engineering Materials, edited by J.W. Ju, D. Krajcinovic and H.L. Schreyer, ASME AMD-Vol. 109 and MD-Vol.24, New York, 211-226, 1990.

  5. Y.M. Wang and G.J. Weng: A local-field theory for the overall creep of fiber-reinforced metal-matrix composites, in Inelastic Deformation of Composite Materials (IUTAM Symposium), edited by G.J. Dvorak, Springer-Verlag, New York, 501-525, 1991.

  6. Y.P. Qiu and G.J. Weng: A theory of porous plasticity at low triaxiality, in Proceedings of Engineering Mechanics Specialty Conference, edited by H. Adeli and R.L. Sierakowski, ASCE, New York, 298-302, 1991.

  7. K.M. Murali and G.J. Weng: Transition of viscoplasticity from the single crystal to the polycrystal level, in Anisotropy and Localization of Plastic Deformation, edited by J.P. Boehler and A.S. Khan, Elsevier, London, 152-155, 1991.

  8. Y.P. Qiu and G.J. Weng: Anisotropic plasticity of a porous material with aligned spheroidal voids, in Anisotropy and Localization of Plastic Deformation, edited by J.P. Boehler and A.S. Khan, Elsevier, London, 262-265, 1991.

  9. Y.M. Wang and G.J. Weng: High temperature creep of planarly isotropic metal-matrix and polymer-matrix composites, in High Temperature Constitutive Modeling, edited by A.D. Freed and K.P. Walker, ASME MD-Vol.28 and AMD-Vol.121, New York, 451-468, 1991.

  10. T. Sakaki, G.J. Weng and K. Kakehi: r-value of a sheet with continuously varying anisotropic parameters, in Proceedings of JSME Conference on Mechanics and Materials, JSME, Tokyo, Vol.B, 362-364, 1991.

  11. Y.P. Qiu and G.J. Weng: An energy approach to the plasticity of porous materials, in Recent Advances in Damage Mechanics and Plasticity, edited by J.W. Ju, ASME AMD-Vol.132 and MD-Vol.30, New York , 203-217, 1992.

  12. G.J. Weng and Y.P. Qiu: Plasticity for a class of porous materials and two-phase composites, in Proceedings of JSME Conference on Mechanics and Materials, JSME, Tokyo, 319-322, 1992.

  13. H.H. Pan and G.J. Weng: An energy approach to the high-temperature creep of fiber-reinforced metal-matrix composites, in Damage Mechanics in Composites, edited by D. H. Allen and D.C. Lagoudas, ASME AMD-Vol.150, New York, 195-212, 1992.

  14. A. Bhattacharyya, T. Sakaki and G.J. Weng: Morphological influence of martensite on the stress-strain relations of dual-phase metals with a prior phase transformation, in Microstructural Characterization of Heterogeneous Media, edited by S. Torquato and D. Krajcinovic, ASME AMD-Vol.47, New York, 67-83, 1992.

  15. J. Li and G.J. Weng: Strain-rate sensitivity and inclusion-shape dependence in the stress-strain relations of isotropic viscoelastic composites, in Homogenization and Constitutive Modeling for Heterogeneous Materials, edited by C.S. Chang and J.W. Ju, ASME AMD-Vol. 166, New York, 47-62, 1993.

  16. J. Li and G.J. Weng: Effective viscoelastic behavior and complex moduli of a class of polymer-matrix composites, in Use of Plastics and Plastic Composites: Materials and Mechanics Issues, edited by V.K. Stokes, ASME MD-Vol.46, New York, 207-225, 1993.

  17. J. Li and G.J. Weng: Micromechanical determination of the viscoplastic behavior of a metal-matrix composite, in Inelasticity and Micromechanics of Metal Matrix Composites, edited by G.Z. Voyiadjis and J.W. Ju, Elsevier, Amsterdam, 213-227, 1994.

  18. S. Govindarajan, N.A. Langrana and G.J. Weng: Modeling creep behavior in polymeric woven composites, in Advances in Computer-Aided Engineering of Polymer Processing, edited by K. Himasekhar and V. Prasad, ASME MD-Vol. 49, HTD-Vol. 283, New York, 281-296, 1994.

  19. J. Li and G.J. Weng: A micromechanical theory on the complex moduli of a class of orthotropic polymer-matrix composites, in Failure Mechanics in Advanced Polymeric Composites, edited by G.A. Kardomateas and Y. Rajapakse, ASME AMD-Vol.196, New York, 109-124, 1994.

  20. Y.H. Zhao and G.J. Weng: Influence of progressive debonding on the constitutive behavior of disc-reinforced ductile matrix composites, in Damage Mechanics in Composites, edited by D.H. Allen and J.W. Ju, ASME AMD-Vol.185, New York, 179-190, 1994.

  21. Y.H. Zhao and G.J. Weng: Effective elastic moduli of a two-phase composite containing partially debonded spheroidal inclusions, in Microstructures and Mechanical Properties of New Engineering Materials, edited by B. Xu, M. Tokuda and J. Song, International Academic Publishers, Beijing, 45-50, 1995.

  22. J. Li and G.J. Weng: A unified micromechanical theory for the high-temperature creep of particle-reinforced metal-matrix composites, in Key Engineering Materials Vol. 104-107, 749-756, 1995.

  23. Y.H. Zhao and G.J. Weng: Transversely isotropic elastic moduli of a composite with partial particle debonding, in Micromechanical Modeling and Damage Characterization of Advanced Materials, edited by S.A. Meguid, ASME AMD Vol. 199, New York, 1-11, 1995.

  24. J. Li and G.J. Weng: Viscoplasticity of a two-phase composite with the lamellar structure, in Micromechanics and Constitutive Modeling of Composite Materials, edited by H.M. Zbib and I. Demir, ASME AMD-Vol.202, New York, 65-75, 1995.

  25. J. Li and G. J. Weng: Void growth in viscoelastic polymeric materials, in Mechanics of Plastics and Plastic Composites, edited by M.C. Boyce, ASME MD-Vol.68, New York, 409-421, 1995.

  26. Y.H. Zhao, J. Li and G.J. Weng: A hybrid damage mechanics of progressive partial debonding in a class of brittle-matrix composites, in Damage and Interfacial Debonding in Composites, edited by G.Z. Voyiadjis, Elsevier, Amsterdam, 259-272, 1996.

  27. K. Ding and G. J. Weng: A first step toward functionally graded plasticity in porous materials, in Damage Mechanics of Engineering Materials, edited by G.Z. Voyiadjis, J.-L. Chaboche, and J.W. Ju, Elsevier, Amsterdam, 441-454, 1998.

  28. J. Li and G. J. Weng: A micromechanical theory for the stress-strain relations of ferroelectric ceramics, in Progress in Mechanical Behavior of Materials, edited by F. Ellyin and J.W. Provan, Fleming Press, Victoria, British Columbia, 1045-1050, 1999.

  29. J. Li and G. J. Weng: A nonlinear constitutive model for ferroelectric materials, in Proceedings, 4th International Conference on Constitutive Laws for Engineering Materials, edited by R.C. Picu and E. Krempl, RPI Press, New York. 317-320, 1999.

  30. X. Guo, R. Ji, G.J. Weng, L.L. Zhu, J. Lu: Micromechanical simulation of fracture behavior of nanostructured metals with bimodal grain size distribution, in Procedia Materials Science, vol. 3, 2148-2153, 2014.

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