The fracture process of metallic materials is affected by void growth and coalescence directly, most of the researchers supposed that metal is isotropic, but they ignored the factors of crystallographic orientation, inter- and intra-granular inhomogeneous deformation.

Nucleation and growth of voids in ductile materials subject to high pressure dynamic loading are important topics in the analysis of metallic damage in the mesoscale level.

By experimental study on flexural strength of industrial waste residua concrete perforated brick with different hole type and different void ratio the factors which effect its flexural performance has been analyzed and the suggestions to enhance its flexural strength have been proposed.

Compression strength of perforated brick masonry is investigated with different materials,hole shapes, void ratio and dimension of brick.