Fatigue growth modeling of cracks emanating from a circular hole in infinite plate

This paper investigates the problem of cracks emanating from a circular hole in an orthotropic infinite plate. The mixed-mode stress intensity factors are calculated by using the modified mapping-collocation method. To investigate the effect of anisotropy and circular hole boundary on the crack tip

The stress intensity factors of two cracks emanating from a hole in a finite plate is analysed by the Muskhelishviii formulation and boundary collocation method. For Mode I case, the present results compared very favorably with the existing solutions. For the mixed mode problems of inclined cracks,

An elastic analysis with a plastic zone modelled using the Dugdale approach is done to determine the crack opening displacement and to plot a failure assessment diagram, for short radial cracks emanating from a circular hole in an infinite sheet.

A B S T R A C T Stress-intensity factors, Kt and Kib are obtained for a point loaded crack emanating from a circular hole in an infinite plate. A series approach and the Muskhelishvili formulation in the two-dimensional theory of elasticity are used to derive the solution. The applicability of the s

In this paper the boundary collocation method has been used successfully to analyse the interfacial cracks emanating from a hole in a bi-material plate. The stress functions are assumed such that they can satisfy a series of governing conditions, such as the equilibrium equations in the domain, the