A mass-matrix formulation for three-dimensional dynamic fracture mechanics

The weight function technique is used to analyse both static and dynamic three-dimensional fracture mechanics problems. The weight functions are first determined, in terms of Laplace transforms, by an indirect boundary element method. The stress intensity factor in the time domain is then obtained b

Ahstraet-In Part I of this rePott, the theoretical and numerical fund~en~ls of BIEM techniques in real transformed dynamic are presented. Interesting remarks on how the numerical integrations have been done, are pointed out in the method. In Part II, to be published in a detailed paper, numerical

A three-dimensional ®nite-element solution to the problem of coupled thermohydromechanical deformation, groundwater ¯ow, and heat transport in deformable fractured porous media is presented in this paper. The governing equations are based on Biot's consolidation theory for poroelastic materials, ext