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    Numerical Analysis of Joint Rock Shear Properties Considering Joint Geometrical Characters

    New search for: Zhang, Qiang
    New search for: Ge, Xiu Run
    New search for: Wang, Shui Lin

    The purpose of this paper is to study the shear behavior of rock specimens containing joints with various distribution forms. Two sets of specimens are simulated by the rock failure process analysis code (RFPA2D). The friction-sliding failure pattern occurs with the lower undulation angle specimen, and the failure pattern turns to be tensile-shear failure mode gradually with the increase of undulation angle. The specimen possesses the highest peak shear load when the undulation angle is about 30º. And joint rock shear character also deteriorates with the increase of weak interlayer thickness. In the intermittent joint model, the unified connection ratio specimen’s peak shear load increases with rock bridge amount, and the multi-joint mode is beneficial to keep rock mass shear stiffness. This study comes to meaningful results to the expansion of joint rock strength evolution law with various joint distribution forms.

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    Numerical Analysis of Joint Rock Shear Properties Considering Joint Geometrical Characters

    New search for: Zhang, Qiang
    New search for: Ge, Xiu Run
    New search for: Wang, Shui Lin

    The purpose of this paper is to study the shear behavior of rock specimens containing joints with various distribution forms. Two sets of specimens are simulated by the rock failure process analysis code (RFPA2D). The friction-sliding failure pattern occurs with the lower undulation angle specimen, and the failure pattern turns to be tensile-shear failure mode gradually with the increase of undulation angle. The specimen possesses the highest peak shear load when the undulation angle is about 30º. And joint rock shear character also deteriorates with the increase of weak interlayer thickness. In the intermittent joint model, the unified connection ratio specimen’s peak shear load increases with rock bridge amount, and the multi-joint mode is beneficial to keep rock mass shear stiffness. This study comes to meaningful results to the expansion of joint rock strength evolution law with various joint distribution forms.

    Access

    Check access
    Check availability in my library
    Order at Subito €

    Numerical Analysis of Joint Rock Shear Properties Considering Joint Geometrical Characters

    New search for: Zhang, Qiang
    New search for: Ge, Xiu Run
    New search for: Wang, Shui Lin

    The purpose of this paper is to study the shear behavior of rock specimens containing joints with various distribution forms. Two sets of specimens are simulated by the rock failure process analysis code (RFPA2D). The friction-sliding failure pattern occurs with the lower undulation angle specimen, and the failure pattern turns to be tensile-shear failure mode gradually with the increase of undulation angle. The specimen possesses the highest peak shear load when the undulation angle is about 30º. And joint rock shear character also deteriorates with the increase of weak interlayer thickness. In the intermittent joint model, the unified connection ratio specimen’s peak shear load increases with rock bridge amount, and the multi-joint mode is beneficial to keep rock mass shear stiffness. This study comes to meaningful results to the expansion of joint rock strength evolution law with various joint distribution forms.

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    Title:

    Numerical Analysis of Joint Rock Shear Properties Considering Joint Geometrical Characters

    Contributors:

    Zhang, Qiang / Ge, Xiu Run / Wang, Shui Lin

    Published in:

    Applied Mechanics and Materials ; 29-32 ; 149-154

    Publication date:

    2010-08-13

    Size:

    6 pages

    ISSN:

    1662-7482 , 1660-9336

    DOI:

    https://doi.org/10.4028/www.scientific.net/AMM.29-32.149

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    English

    Keywords:

    Numerical Study , Rock Joints , Undulation Angle , Joint Distribution Form , Direct Shear Test

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