The stress field in the vicinity of two collinear cracks subject to antiplane shear in a strip of finite width

TL;DR: The problem of an interface crack between two bonded dissimilar semi-infinitely long orthotropic strips of finite width is analyzed under arbitrary anti-plane shear loading using the finite Fourier transform technique and the solutions to the problem are obtained in closed-form.

TL;DR: In this article, the authors considered the problem of an orthotropic strip containing two collinear cracks normal to the strip boundaries, and the Fourier series method was used to reduce the associated boundary value problem to triple series equations, then to a singular integral equation, which can be solved analytically.

TL;DR: The results show that in addition to the geometric factor, stress intensity factors are dependent on the material properties and are compared under different boundary conditions.

TL;DR: In this article, the solution of a Volterra type screw dislocation problem in an orthotropic rectangular plane with finite length and width and various boundary conditions is obtained by means of a separation of variables technique.

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TL;DR: In this article, the theoretical strength of crystalline solids is derived based on idealised forms of atomic force-displacement curves, in which the force is defined as the differential with respect to distance of the interatomic or inter-ionic energy.