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Volume 9, Issue 2
1 February 1992
Engineering Computations Cover Image for Volume 9, Issue 2
Review Article| February 01 1992

MODELLING OF SOIL CREEP WITH THE DISCRETE ELEMENT METHOD Available to Purchase

MATTHEW R. KUHN;
MATTHEW R. KUHN
Department of Civil Engineering, Multnomah School of Engineering, University of Portland, Portland, OR 97203, USA
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JAMES K. MITCHELL
JAMES K. MITCHELL
Department of Civil Engineering, University of California, Berkeley, CA 94720, USA
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Author & Article Information
Publisher: Emerald Publishing
Online ISSN: 1758-7077
Print ISSN: 0264-4401
© MCB UP Limited
1992
Engineering Computations (1992) 9 (2): 277–287.
https://doi.org/10.1108/eb023866

The discrete element method (DEM) was used to stimulate creep processes in granular materials. The authors present the main features of the numerical model, which include a new viscous mechanism for particle sliding, a new feedback technique for maintaining constant stress during creep, and a scaling technique that allowed monitoring the long‐term creep behaviour of a granular assembly. The creep behaviour of the numerical model exhibited the essential characteristics of soil creep—a creep rate that decreased rapidly with time, an increase in the creep rate with the applied deviator stress, and the beginning of creep rupture. The model's numerical performance is discussed, and representative results are presented.

Keywords:
Soil creep, Discrete element method
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© MCB UP Limited
1992
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