Biography

Prof. Baolin Wang

The University of New South Wales, Australia


Email: b.b.wang@unsw.edu.au


Qualifications


1995 Ph.D., School of Aeronautics, Harbin Institute of Technology, China

1992 M.Sc., Solid Mechanics, Beijing University of Aeronautics and Astronautics, China

1986 B.Sc., Solid Mechanics, Beijing University of Aeronautics and Astronautics, China


Publications (Selected)

  1. B.L. Wang and Y.-W. Mai. Time-dependent piezoelectric fracture behavior of conducting cracks and electrodes. International Journal of Applied Mechanics and Engineering, 2006, 11(1), pp.179-194.
  2. B.L. Wang and Y.-W. Mai (corresponding author). A periodic array of cracks in functionally graded materials subjected to transient loading. International Journal of Engineering Science, 2006, 44(5/6), pp.351-364.
  3. B.L. Wang and Y.-W. Mai (corresponding author). Corrigendum to: “Fracture of piezoelectromagnetic materials” [Mechanics Research Communications 31 (2004) 65-73]. Mechanics Research Communications, 2006, 33(2), p.280.
  4. X.F. Li and B.L. Wang. Anti-plane shear crack normal to and terminating at the interface of two bonded piezoelectric ceramics. International Journal of Solids and Structures, 2007, 44(11/12), pp.3796-3810.
  5. B.L. Wang and J.C. Han. Multiple surface cracking of elastic coatings subjected to dynamic load. Mechanics of Materials, 2007, 39(5), pp.445-457.
  6. B.L. Wang and J.C. Han. Multiple cracking of magnetoelectroelastic materials in coupling thermo-electro-magneto-mechanical loading environments. Computational Materials Science, 2007, 39(2), pp.291-304.
  7. B.L. Wang and J.C. Han. An accumulation damage model for fatigue fracture of ferroelectric ceramics. Engineering Fracture Mechanics, 2007, 74(9), pp.1456-1467.
  8. B.L. Wang and J.C. Han. An analytical model for electrode–ceramic interaction in multilayer piezoelectric actuators. Acta Mechanica Sinica, 2007, 23(2), pp.199-208.
  9. B. L. Wand and H.Y. Zhang. Analysis of multiple cracks in laminate composites under anti-plane static loads. Fatigue & Fracture of Engineering Materials and Structures, 2007, 30(4), pp.294-300.
  10. B.L. Wang, Y.-W. Mai and O.P. Niraula. A horizontal shear surface wave in magneto-electro-elastic materials. Philosophical Magazine Letters, 2007, 87(1), 53-58.
  11. B.L. Wang and Y.-W. Mai. Exact and fundamental solution for an anti-plane crack vertical to the boundaries of a magnetoelectroelastic strip. International Journal of Damage Mechanics, 2007, 16(1), pp.77-94.
  12. B.L. Wang and Y.-W. Mai. Applicability of the crack-face electromagnetic boundary conditions for fracture of magnetoelectroelastic materials. International Journal of Solids and Structures, 2007, 44(2), pp.387-398.
  13. B.L. Wang and Y.-W. Mai. Self-consistent analysis of coupled magnetoelectroelastic fracture -theoretical investigation and finite element verification. Computer Methods in Applied Mechanics and Engineering, 2007, 196(13-16), pp.2044-2054.
  14. B.L. Wang and Y.-W. Mai. Multiple surface cracks in a piezoelectric layer bonded to an elastic substrate under transient electromechanical loads. Mechanics of Materials, 2007, 39(6), pp.564-579.
  15. B.L. Wang and Y.-W. Mai. On Thermal Shock Behavior of Functionally Graded Materials. Journal of Thermal Stresses, 2007, 30(6), pp.523-558.
  16. B.L. Wang and Y.-W. Mai. Investigation of a mode III crack in functionally graded magnetoelectroelastic materials. Advances in Fracture and Damage Mechanics VI, 2007, 348/349, pp.713-716.
  17. B.L. Wang, H.Y. Zhang and J.C. Han. A periodic array of cracks in a transversely isotropic magnetoelectroelastic material. Archive of Applied Mechanics, 2007, 77(8), pp.541-558.
  18. B.L. Wang and J.C. Han. Fracture of a finite piezoelectric strip with a crack vertical to its borders – An exact analysis and its applications. International Journal of Applied Electromagnetics and Mechanics, 2007, 26(1/2), pp.87-99.
  19. B.L. Wang and J.C. Han. Multiple surface cracking of a piezoelectric layer bonded to an elastic substrate under dynamic anti-plane electromechanical impacts. Journal of Intelligent Material Systems and Structures, 2007, 18(11), pp.1203-1213.
  20. B.L. Wang and O.P. Niraula. Transient thermal fracture analysis of transversely isotropic magneto-electro-elastic materials. Journal of Thermal Stresses, 2007, 30(3), pp.297-317.
  21. B.L. Wang and Y.-W. Mai. Accumulation damage mode for ferroelectric ceramics subjected to mode III fatigue loading conditions. International Journal of Damage Mechanics, 2008, 17(1), pp.29-44.
  22. X.F. Li, B.L. Wang (corresponding author) and Y.-W. Mai. Effects of a surrounding elastic medium on flexural waves propagating in carbon nanotubes via nonlocal elasticity. Journal of Applied Physics, 2008, 103(7), Paper No.074309 (nine pages).
  23. H.Y. Zhang and B.L. Wang. Modeling multilayer piezoelectric actuators in a residual temperature field. Journal of Thermal Stresses, 2008, 31(3), pp.246-259.
  24. B.L. Wang, Y.G. Sun and H.Y. Zhang. Analysis of a penny-shaped crack in magnetoelectroelastic materials. Journal of Applied Physics, 2008, 103(8), paper No. 083530 (eight pages).
  25. B.L. Wang and Y.-W. Mai. Model surface electrodes on a piezoelectric layer. Transaction of ASME, Journal of Applied Mechanics, 2008, 75(2), Paper No.021007.
  26. B.L. Wang, Y.G. Sun and H.Y. Zhang. Multiple cracking of fiber/matrix composites-analysis of normal extension. International Journal of Solids and Structures, 2008, 45(14/15), pp.4032-4048.
  27. B.L. Wang, H.Y. Zhang and O.P. Niraula. An internal crack subjected to a thermal flow in magnetoelectroelastic solids: exact fundamental solution. Mathematics and Mechanics of Solids, 2008, 13(5), pp.447-462.
  28. B.L. Wang, H.Y. Zhang and O.P. Niraula. A moving screw dislocation in transversely isotropic magnetoelectroelastic materials. Philosophical Magazine Letters, 2008, 88(2), pp.153-158.
  29. B.L. Wang, Y.G. Sun, J.C. Han and S.Y. Du. Interfacial fracture of layered magnetoelectroelastic materials. Mechanics of Composite Materials, 2008, 44(2), pp.95-108.
  30. B.L. Wang and Y.G. Sun. A theoretical model of conductive cracks in piezoelectric materials under electromechanical cycling. Journal of Intelligent Material Systems and Structures, 2008, 19(10), pp.1153-1161.
  31. B.L. Wang and Y.-W. Mai. An exact analysis for mode III cracks between two dissimilar magnetoelectroelastic layers. Mechanics of Composite Materials, 2008, 44(6), pp.533-548.
  32. B.L. Wang, J.C. Han, S.Y. Du, H.Y. Zhang and Y.G. Sun. Electromechanical behaviour of a finite piezoelectric layer under a flat punch. International Journal of Solids and Structures, 2008, 45(25/26), pp.6384-6398.
  33. C.F. Gao, Y.W. Mai and B.L. Wang. Effects of magnetic fields on cracks in a soft ferromagnetic material. Engineering Fracture Mechanics, 2008, 75(17), pp.4863-4875.
  34. B.L. Wang, Y.G. Sun, J.C. Han and S.Y. Du. An interface electrode between two piezoelectric layers, Mechanics of Materials, 2009, 41(1), pp.1-11.
  35. G. Li, B.L. Wang(corresponding author), J.C. Han, S.Y. Du. Anti-plane analysis for elliptical inclusion in magnetoelectroelastic materials. Acta Mechanica Solida Sinica, 2009, 22(2), pp.137-142.
  36. G.Y. Huang, B.L. Wang(corresponding author), Y.W. Mai. Effect of Interfacial Cracks on the Effective Properties of Magnetoelectroelastic Composites. Journal of Intelligent Material Systems and Structures, 2009, 20(8), pp.963-968.
  37. G.Y. Huang, B.L. Wang(corresponding author), Y.W. Mai. Effective properties of magnetoelectroelastic materials with aligned ellipsoidal voids. Mechanics Research Communications, 2009, 36(5), pp.563-572.
  38. B.L. Wang, Advanced in Materials Science.
  39. B.L. Wang. Corrigendum to: “Electromechanical behaviour of a finite piezoelectric layer under a flat punch”[International Journal of Solids and Structures 45 (2008) 6384-6398]. International Journal of Solids and Structures, 2009, 46, p.3321.
  40. B.L. Wang and X.F. Li. Electrode mechanics of piezoelectric materials. Science of Advanced Materials, 2009, 1(2), pp.153-166. (invited contribution)
  41. X.F. Li, B.L. Wang (corresponding author). Vibrational modes of Timoshenko beams at small scales. Applied Physics Letters, 2009, 94, paper No.101903.
  42. X.F. Li, B.L. Wang and K.Y. Lee. Size effects of the bending stiffness of nanowires. Journal of Applied Physics, 2009, 105(7), Paper No. 074306.
  43. B. L. Wang and O. P. Niraula. Two collinear antiplane cracks in functionally graded magnetoelectroelastic composite materials. Mechanics of Composite Materials, 2009, 45(6), pp.583-596.
  44. G. Li, B.L. Wang (corresponding author) and J.C. Han. Exact solution for elliptical inclusion in magnetoelectroelastic materials. International Journal of Solids and Structures, 2010, 47(3), pp.419-426.
  45. B.L. Wang, J.C. Han and S.Y. Du. Transient fracture of a layered magnetoelectroelastic medium. Mechanics of Materials, 2010, 42(3), pp.354-364.
  46. B.L. Wang, J.C. Han and S.Y. Du. Thermal shock resistance analysis methodology of ceramic coating/metal substrate systems. Engineering Fracture Mechanics, 2010, 77(6), pp.939-950.
  47. B.L. Wang and J.C. Han. Thermal conduction in bi-layer materials with an interfacial inclusion. Philosophical Magazine Letters, 2010, 90(4), pp.241-249.
  48. B.L. Wang and J.C. Han. Effect of finite cracking on the electromechanical coupling properties of piezoelectric materials. International Journal of Fracture, 2010, 164(2), pp.201-212.
  49. X.F. Li, B.L. Wang and J.C. Han. A higher-order theory for static and dynamic analyses of functionally graded beams. Archive of Applied Mechanics, 2010, 80(10), pp.1197-1212.
  50. B.L. Wang and J.C. Han. A finite element method for non-Fourier heat conduction in strong thermal shock environments. Frontiers of Materials Science in China, 2010, 4(3), pp.226–233.
  51. B.L. Wang and J.C. Han. Transverse cracking of orthotropic composite laminates: a fracture mechanics approach. Archive of Applied Mechanics, 2010, 80(11), pp.1301-1316.
  52. B.L. Wang, J.C. Han and S.Y. Du. Analysis of fiber breaking in fiber/matrix composites under torsional loads. Mechanics of Composite Materials, 2010, 46(4), pp.365-374.
  53. B.L. Wang and J.C. Han. Effect of finite cracking on the magneto-electric coupling properties of magneto-electro-elastic composite laminates. Journal of Intelligent Material Systems and Structures, 2010, 21(16), pp.1669-1679.
  54. B.L. Wang and M. Hoffman. Closed form solution for a line inclusion in magnetoelectroelastic media. International Journal of Applied Electromagnetics and Mechanics, 2010, 34(1/2), pp.119-129.
  55. B.L.Wang, J.C. Han and S.Y. Du. Anti-plane mechanical and in-plane electrical fields for a finite electrode/punch on a finite piezoelectric layer. Fatigue & Fracture of Engineering Materials & Structures, 2011, 34(2), pp.139-148.
  56. J.C. Han and B.L. Wang. Thermal shock resistance of ceramics with temperature dependent material properties at elevated temperature. Acta Materialia, 2011, 59(4), pp.1373-1382.
  57. D.M. Chang and B.L. Wang. Thermal shock resistance of brittle ceramic materials with embedded elliptical cracks. Philosophical Magazine Letters, 2011, 91(10), 648-655.

 

 

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