Numerical modeling of crack propagation and shielding effects in a striping network

A probabilistic model is presented to predict the formation and propagation of crack networks in thermal fatigue. It is based on a random distribution of sites where cracks initiate and on the shielding phenomenon corresponding to the relaxed stress field created around cracks. Currently, the model

Two-dimensional depth-averaged Boussinesq-type equations were presented with the consideration of slowly varying bathymetry and effects of bottom viscous boundary layer. These Boussinesq-type equations were written in terms of the horizontal velocity components evaluated at an arbitrary elevation in

Crack growth-rate tests were performed in a medium-strength pressure vessel steel, AS33 B, which had been annealed to produce materials with widely varying priqr austenite grain sizes, Testing was at two temperatures, normal room temperature and liquid nitrogen temperature, both on the lower shelf o