The Interaction between a Crack and a Particle Cluster

The three-dimensional interaction of a crack front with particles is investigated under mode-I loading. The J-integral is applied to characterize the crack-inclusion interactions. Numerical examples are presented, using 20 node, isoparametric finite elements, for the compact tension specimen and ela

The solution is given in closed form to the problem of the elastic field round a ~ dislocation an d a,. crack in any relative position when the field is independent of one of the three cartesian co-ordinates. The analysis holds for the most general anisotropy.

To investigate the two-way interaction between particles and fluid turbulence, a homogeneous flow field including solid particles was numerically simulated. Spherical particles are falling by gravity with the Reynolds number ranging from 50 to 400, based on slip velocity. Particular attention was fo

This paper presents the results of an analysis which considers the interaction between a semi-infinite crack and a dislocation dipole. Applying the operator derived by Denda [1] to the crack/dislocation interaction solution developed by Lo [2], explicit expressions are obtained for the stress intens