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The tubular interface crack in a hollow composite cylinder under static torsion with four frequently encountered constraint edges

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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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Authors and Affiliations

  1. School of Mechano-Electronic Engineering, Xidian University, Xi’an, 710071, China

    Peng-peng Shi

  2. Key Laboratory of Mechanics on Disaster and Environment in Western China, Lanzhou University, Ministry of Education, Lanzhou, 730000, China

    Peng-peng Shi

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  1. Peng-peng Shi
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Correspondence to Peng-peng Shi.

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Recommended by Associate Editor Kyeongsik Woo

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

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