Publicações

Chaudhuri, R.A., Oktem, A.S. e Guedes Soares, C. (2013), “Stress Concentration/Intensity around Elliptical/Circular Cylinder Shaped Surface Flaws in Thin Cross-Ply Plates and St. Venant’s Principle”, Applied Mathematical Modelling, Volume 37, pp.1362-1377

Effects of localized elliptical (circular being a special case) cylindrical surface flaws in laminated composite plates are investigated by using C_-type triangular composite plate elements, formulated on the assumptions of transverse inextensibility and layer-wise constant shear-angle theory (LCST). Numerical results for a cross-ply laminate compromised by the presence of an external part-through elliptical/circular cylindrical slot indicate the existence of severe cross-sectional warping in the vicinity of the surface flaw and plate boundaries. Furthermore, three-dimensional nature of the stress concentration factor in the neighborhood of the elliptical or circular cylinder shaped surface flaw boundary is clearly exhibited. Besides, very high stress concentration factors are found in the layer weakened by the surface flaw. Most importantly, the effects of stress singularity in the neighborhood of the circumferential re-entrant corner lines of the elliptical/circular cylindrical surface flaws, weakening laminated composite plates, are numerically assessed, because of their role in crack initiation. Finally, the interaction of this singularity with free edge stress singularity at the plate boundary, and the implication of such interactions (i.e., violation of St. Venant’s principle) in regards to testing of laminated composite specimens are thoroughly investigated.

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