Coupled finite element modeling of - slope stability

Society for Mining, Metallurgy & Exploration

W. G. Pariseau S. C. Schmelter

Organization:: Society for Mining, Metallurgy & Exploration
Pages:: 8
File Size:: 447 KB
Publication Date:: Jan 1, 1999

Abstract

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The destabilizing effect of water pressure on rock-mass stability is examined quantitatively by the finite element method. A coupled code that accounts for the simultaneous effects of rock-mass deformation and transient fluid flow is used for this purpose. The traditional soil-mechanics assumption of an incompressible fluid is shown to be untenable for the analysis of porous, fractured rock slopes. A Mandel-Cryer effect, whish is a transitory but elevated and potentially destabilizing water pressure following a cut, was not observed.

Citation

APA: W. G. Pariseau S. C. Schmelter (1999) Coupled finite element modeling of - slope stability

MLA: W. G. Pariseau S. C. Schmelter Coupled finite element modeling of - slope stability. Society for Mining, Metallurgy & Exploration, 1999.

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