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Professor Jianxiang Wang

Professor in Solid Mechanics

Dept. of Mechanics & Engineering Science
Peking University
Beijing 100871
P.R.China

Tel: +86 10 62757948
E-mail:jxwang@pku.edu.cn
http://www.mech.pku.edu.cn/jxwang.htm


Education and Professional Experience

Research Interests

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Selected Publications

  1. Duan, H. L., Wang, J., Karihaloo, B. L. & Huang, Z. P.  2006 Nanoporous materials can be made stiffer than non-porous counterparts by surface modification. Acta Materialia 54, 2983--2990.

  2. Wang, J., Duan, H. L. & Yi, X. 2006 Bounds on effective conductivities of heterogeneous media with graded constituents. Phys. Rev. B 73, Art. 104208.

  3. Duan, H. L., Jiao, Y., Yi, X., Huang, Z. P. & Wang, J. 2006 Solutions of inhomogeneity problems with graded shells and application to core-shell nanoparticles and composites. J. Mech. Phys. Solids  54, 1401--1425.

  4. Wang, J., Duan, H. L., Huang, Z. P. & Karihaloo, B. L. 2006 A scaling law for properties of nano-structured materials. Proc. Roy. Soc. A 462, 1355--1363.

  5. Huang, Z. P. & Wang, J. 2006 Nonlinear mechanics of solids containing isolated voids.  ASME  Appl. Mech. Rev. 59, 210--229.

  6. Chu, H. J. & Wang, J. 2005 Strain distribution in arbitrarily shaped quantum dots with nonuniform composition. J. Appl. Phys 98, Art.  034315.

  7. Duan, H. L., Wang, J., Huang, Z. P. & Karihaloo, B. L. 2005 Eshelby formalism for nano-inhomogeneities. Proc. Roy. Soc. A 461, 3335--3353.

  8.  Duan, H. L., Wang, J., Huang, Z. P. & Karihaloo, B. L. 2005 Size-dependent effective elastic constants of solids containing nano-inhomogeneities with interface stress. J. Mech. Phys. Solids  53, 1574--1596.

  9.  Duan, H. L., Wang, J., Huang, Z. P. & Zhong, Y. 2005 Stress fields of a spheroidal inhomogeneity  with an interphase in an infinite medium under remote loadings. Proc. Roy. Soc. A  461, 1055--1080. กก

  10. Duan, H. L., Wang, J., Huang, Z. P. & Luo, Z. Y. 2005 Stress concentration tensors of   inhomogeneities with interface effects. Mech. Mater. 37, 723--736.

  11. Zhong, Y., Wang, J., Wu, Y. M. & Huang, Z. P. 2004 Effective moduli of particle-filled composite with inhomogeneous interphase Part II: mapping method and evaluation. Comp. Sci. Tech. 64, 1353--1362.

  12. Wu, Y. M., Huang, Z. P., Zhong, Y. & Wang, J. 2004 Effective moduli of particle-filled composite with inhomogeneous interphase Part I:  bounds. Comp. Sci. Tech. 64, 1345--1351.

  13. Wang, J., & Pyrz, R. 2004b Prediction of the overall moduli of layered silicate-reinforced nanocomposites Part II: analyses. Comp. Sci. Tech. 64, 935--944.

  14. Wang, J., & Pyrz, R. 2004a Prediction of the overall moduli of layered silicate-reinforced nanocomposites Part I:  basic theory and formulas. Comp. Sci. Tech. 64, 925--934.

  15. Wang, J. 2002 Overall moduli and constitutive relations of bodies containing multiple bridged microcracks. Int. J. Solids Structures 39, 2203--2214.

  16. Wang, J.,  Fang, J.   & Karihaloo, B. L.  2000 Asymptotic bounds on overall moduli of cracked bodies. Int. J. Solids Structures 37, 6221--6237.

  17. Wang, J., Fang, J.  & Karihaloo, B. L.   2000  Asymptotics of multiple crack interactions and prediction of overall modulus.  Int. J. Solids Structures 37, 4261-4273.

  18. Davies, G.A.O.,  Hitchings, D. & Wang, J.  2000 Prediction of threshold impact energy for onset of delamination in quasi-isotropic carbon/epoxy composite laminates under low-velocity impact. Comp. Sci.  Tech. 60,  1-7.

  19. Wang, J.,  Andreasen, J. H. & Karihaloo, B. L.   2000 The solution of an inhomogeneity in a finite plane region and its application to composite materials. Comp. Sci. Tech 60, 75-82. 

  20. Karihaloo, B. L., Wang, J. & Grzybowski, M.  1996 Doubly periodic arrays of bridged cracks and short-fibre reinforced cementitious materials .   J. Mech. Phys. Solids 44, 1565-1586.

  21. Wang, J. & Karihaloo, B. L. 19994b Mode II and mode III stress singularities and intensities at a crack tip terminating on a transversely isotropic-orthotropic bimaterial interface. Proc. Roy. Soc. A 444, 447-460.

  22. Wang, J. & Karihaloo, B. L. 1994a Cracked composite laminates least prone to delamination. Proc. Roy. Soc. A 444, 17-35.

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Dept.of Mechanics &Engineering Science