Hugh Roy and Lillie Cranz Cullen Professor, Dept. of Mechanical Engineering
University of Houston, Houston, Texas, USA
Selected Publications (NOTE: S. Wang is probably a different person than S.S. Wang) (For more see the link, Prof. Su Su Wang):
Wang, S., S. Errera, and G. Winter, Behaviour of Cold-rolled Stainless Steel Columns. Journal of Structural Division, American Society of Civil Engineers, ASCE, 1975. 101, ST11: p. 2337-2357.
S.S. Wang, “Delamination crack growth in unidirectional fiber-reinforced composites under static and cyclic loading”, Composite materials: Testing and Design; Proceedings of the Fifth Conference, New Orleans, La ; United States; 20-22 Mar. 1978. pp. 642-663. 1979
Roylance, D. and Wang, S.S. Penetration mechanics of textile structures in flexible reinforced composites, in Ballistic materials and penetration mechanics, 1980, Elsevier Sci Pub Co, New York
S. S. Wang, “An analysis of delamination in angle-ply fiber-reinforced composites,” J. Appl. Mech.,47, 64–70 (1980).
J.F. Yau, S.S. Wang, and H.T. Corten. A mixed-mode crack analysis of isotropic solids using conservation laws of elasticity. Journal of Applied Mechanics ASME, 47:335–341, 1980.
Wang, S.S. and Choi, I., "Boundary-Layer Effects in Composite Laminates, Part 1 - Free-Edge Stress Singularities " J. Applied Mechanics, Vol. 49, Sept. 1982, pp. 541-560.
Wang, S. S., and Choi, I., “Boundary Layer Effects in Composite Laminates: Part II - Free-Edge Stress Solutions and Basic Characteristics,” Journal of Applied Mechanics, Vol. 49, September 1982, pp. 549-560.
Wang, S. S., (1983) Fracture mechanics for delamination problems in composite materials. Journal of Composite Materials, 17, 210–223.
Wang, S. S. (1984) Edge delamination in angle-ply composite laminates. AIAA Journal, 22 (2), 256–264
Wang, S. S., Zahlan, N. M. and Suemasu, H. (1985) Compressive stability of delaminated random short-fiber composites, Part I - Modelling and methods of analysis. Journal of Composite Materials, 19, 296–316.
Wang, S. S., Zahlan, N. M. and Suemasu, H. (1985) Compressive stability of delaminated random short-fiber composites. Part II-Experimental and analytical results. Journal of Composite Materials, 19, 317–333.
Wang, S. and Dawe, D. J. (1987) The use of spline functions in calculating the natural frequencies of anisotropic rectangular laminates, in Composite Structures-4, (ed. I. H. Marshall) Elsevier, London, pp. 1.447–1.460.
Wang, S. (1990) The use of spline functions in the analysis of composite laminated plates, PhD Thesis, The University of Birmingham.
Hu, H.-T.; Wang, S.S. 1992: Optimization for buckling resistance of fiber-composite laminate shells with and without cutouts.Composite Structures 22, 3–13
Dawe, D. J. and Wang, S. (1992) Buckling and vibration of composite prismatic plate structures using a spline finite strip approach. Report to Defence Research Agency, December.
Dawe, D. J. and Wang, S. (1992) Vibration of shear-deformable beams using a spline-function approach. International Journal for Numerical Methods in Engineering, 33, 819–44.
Wang, S. and Dawe, D. J. (1993) Vibration of shear-deformable rectangular plates using a spline-function Rayleigh-Ritz approach. International Journal for Numerical Methods in Engineering, 36, 695–711.
Dawe, D. J. and Wang, S. (1993) Free vibration of generally-laminated shear-deformable, composite rectangular plates using a spline Rayleigh-Ritz method. Composite Structures, 25, 77–87.
Tarn, J. and Wang, S. (1994), “An asymptotic theory for dynamic response of inhomogeneous laminated plates”, International Journal of Solids and Structures,31, 231–246.
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