论文信息 - A cellular automaton fracture model: the influence of heterogeneity in the failure process

A cellular automaton fracture model: the influence of heterogeneity in the failure process

The modelling of a complex process such as rock fracture is fraught with problems including: (i) the number and complexity of the processes in operation during fracture; and (ii) the heterogeneity of the material under consideration. These considerations force modellers to adopt a 'notional' approach. In this paper we describe a model of fracture which attempts to mimic the processes that govern seismogenesis by using a rule- based algorithm. This allows us to capture the essential physical aspects of the system while allowing a realistic heterogeneity in the form of a large number of lattice elements. We describe the model and present the preliminary results from such a rule-based algorithm, or cellular automaton. These results illustrate that initial strength distributions have a crucial influence on the fracture pattern that is produced.

[1] P. Gillespie,et al. Limitations of dimension and displacement data from single faults and the consequences for data analysis and interpretation , 1992 .

[2] R. Benzi,et al. The lattice Boltzmann equation: theory and applications , 1992 .

[3] D. Turcotte,et al. Fractal distributions of stress and strength and variations of b-value , 1988 .

[4] Frisch,et al. Lattice gas automata for the Navier-Stokes equations. a new approach to hydrodynamics and turbulence , 1989 .

[5] D. L. Anderson,et al. Theoretical Basis of Some Empirical Relations in Seismology by Hiroo Kanamori And , 1975 .

[6] P. Bhatnagar,et al. A Model for Collision Processes in Gases. I. Small Amplitude Processes in Charged and Neutral One-Component Systems , 1954 .

[7] Michael G. Norman,et al. A fracture-mechanical cellular automaton model of seismicity , 1994 .