Analytical solution with validity analysis for an elliptical void and a rigid inclusion under uniform or nonuniform anti-plane loading

Abstract: An elliptical inclusion (covering both void and rigid inclusions) embedded in an infinite and finite elastic plane subject to uniform and nonuniform (m-th order polynomial) anti-plane loading conditions is analyzed. An analytical solution in terms of the stress field for an infinite plane is developed through the method of analytic function and conformal mapping. Closed-form complex potentials and analytical expressions for Stress Concentration Factors (SCFs) are obtained. The results show that (i.) the SCF va… Show more

“…A uniform heat flux at infinity will induce a linear stress distribution inside the elliptical inhomogeneity. Although the effects of a nonuniform mechanical loading have been thoroughly investigated [6−12], the influence of a nonuniform heat flux on the induced thermoelastic field in a composite has seldom been examined. As in the case of mechanical loading, highly variable thermal loadings can also develop in composites.…”

An elliptical inhomogeneity under nonuniform heat flux

“…A uniform heat flux at infinity will induce a linear stress distribution inside the elliptical inhomogeneity. Although the effects of a nonuniform mechanical loading have been thoroughly investigated [6−12], the influence of a nonuniform heat flux on the induced thermoelastic field in a composite has seldom been examined. As in the case of mechanical loading, highly variable thermal loadings can also develop in composites.…”

An elliptical inhomogeneity under nonuniform heat flux

On the stress concentration factor of circular/elliptic hole and rigid inclusion under the remote anti-plane shear by using degenerate kernels

Simulation of antiplane shear problems with multiple inclusions using the generalized finite difference method