Dislocation punching from interfaces in functionally-graded materials

AImtractmsmall crack d~ection in brittle functionally graded materials (FGMs) is studied. The FGMs are modeled as simply nonhomogeneous materials, i,e., the effect of microstructur¢ is neglected and the material property variation is considered to be continuous. Considering local homogeneity and the

## Abstract A numerical method is proposed for analysing transient waves in plates of functionally graded material (FGM) excited by impact loads. The material properties of the FGM plate have a gradient in the thickness direction and are anisotropic in the plane of the plate. In the present method,

One of the main interests of fracture mechanics in functionally graded materials is the influence of such an inhomogeneity on crack propagation processes. Using the Griffith' energy principle, the change of energy has to be calculated, if the crack starts to propagate. In homogeneous linear-elastic

This paper deals with the problem of generalized magneto-thermoelasticity interactions in a functionally graded viscoelastic layer (Kelvin-Voigt type) due to the presence of thermal shock in the context of the linear theory of generalized thermoelasticity without energy dissipation (GN Model Type II

Functionally graded materials can enhance the performance of components under demanding operating conditions, although the development of residual stresses across the gradient and scaling up the manufacturing process to mass production present some limitations. To overcome these problems, we present