Stefano Zapperi, Purusattam Ray, H. Eugene Stanley, Alessandro Vespignani
Published 1996-12-10Version 1
We study the approach to global breakdown in disordered media driven by increasing external forces. We first analyze the problem by mean-field theory, showing that the failure process can be described as a first-order phase transition, similarly to the case of thermally activated fracture in homogeneous media. Then we quantitatively confirm the predictions of the mean-field theory using numerical simulations of discrete models. Widely distributed avalanches and the corresponding mean-field scaling are explained by the long-range nature of elastic interactions. We discuss the analogy of our results to driven disordered first-order transitions and spinodal nucleation in magnetic systems.
Comments: 4 RevTeX pages, 3 postscript figures
Non-Standard Finite-Size Scaling at First-Order Phase Transitions
Transition barrier at a first-order phase transition in the canonical and microcanonical ensemble
Mean-field theory is exact for the random-field model with long-range interactions
