Three-dimensional elastoplastic model forrock joint elements based on integration algorithm

ZHU Fu-wei; DUI Guan-suo; REN Qing-wen

Volume 33 Issue 7

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Chinese Journal of Geotechnical Engineering > 2011 > 33(7): 1058-1065.

ZHU Fu-wei, DUI Guan-suo, REN Qing-wen. Three-dimensional elastoplastic model forrock joint elements based on integration algorithm[J]. Chinese Journal of Geotechnical Engineering, 2011, 33(7): 1058-1065.

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Three-dimensional elastoplastic model forrock joint elements based on integration algorithm

(1. Department of Mechanics, Beijing Jiaotong University, Beijing 100044,China; 2. Civil Engineering Institute, Hohai University, Nanjing 210098, China)

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Received Date: April 29, 2010
Published Date: July 14, 2011

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The mechanical behaviours of rock mass of major civil engineering are dramatically affected by the presence of joints, and the major discontinues can cause a variety of problems in both surface and underground constructions. Realistic simulation of the mechanical behaviours of rock joints becomes an important part of modelling the rock mass. A three-dimensional joint element based on the framework of elastoplastic constitutive model is proposed to account for dilatancy, roughness and undulating surface of discontinuities. To simulate the behaviours of joints under complex loading condition, dilatancy and reduction zone are suggested. An integration algorithm of constitutive equations based on the Euler backward integral method is used, and the consistent tangential matrices are derived. An ABAQUS user-defined element subroutine using this model is programmed, three experiments of direct shear tests, cyclic shear tests and restricted normal stiffness shear tests are simulated by ABAQUS, and the calculated results are analyzed to verify this method.
- rock joint element,
- constitutive integration algorithm,
- ABAQUS,
- consistent tangent stiffness

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