Abstract
A tubular interface crack in a hollow composite cylinder is analyzed under static torsion. For four frequently encountered constraint edges—free-free, clamped-clamped, free-clamped, or clamped-free edges—theoretical derivation is performed by the Fourier integral transform method. The mixed boundary value problem associated with a mode-III interface crack for each case is reduced to a singular integral equation, from which the numerical results of Stress intensity factors (SIFs) are obtained by the Lobatto-Chebyshev quadrature technique. Numerical results of SIFs show that a coupled effect exists of geometrical and physical parameters on the interfacial fracture behavior, which clearly relates to the selecting of constraint edges.
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Pengpeng Shi received the M.S. in Mathematics and Computer Science from Ningxia University, Ningxia, China, 2013. He is currently working toward the Ph.D. in Mechano-Electronic Engineering at Xidian University, Shaanxi, China. His research interests include elasticity and fracture mechanics of multi-field coupling materials, weak magnetic nondestructive testing technique for ferromagnetic materials, and mathematical physics methods involved in mechanic analysis.
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Shi, Pp. The tubular interface crack in a hollow composite cylinder under static torsion with four frequently encountered constraint edges. J Mech Sci Technol 29, 3805–3818 (2015). https://doi.org/10.1007/s12206-015-0827-1
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DOI: https://doi.org/10.1007/s12206-015-0827-1