Numerical Simulation of Mechanical Properties of Columnar Jointed Basalt Under Unloading Condition

doi:10.12068/j.issn.1005-3026.2016.02.020

Journal of Northeastern University Natural Science ›› 2016, Vol. 37 ›› Issue (2): 243-248.DOI: 10.12068/j.issn.1005-3026.2016.02.020

• Resources & Civil Engineering • Previous Articles Next Articles

Numerical Simulation of Mechanical Properties of Columnar Jointed Basalt Under Unloading Condition

JIN Chang-yu， HOU Xiao-le， LIU Dong， CUI Rui-rui

Key Laboratory of Ministry of Education on Safe Mining of Deep Metal Mines， Northeastern University， Shenyang 110819， China.

Received:2014-12-15 Revised:2014-12-15 Online:2016-02-15 Published:2016-02-18
Contact: JIN Chang-yu
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Abstract

Abstract: Columnar jointed basalt in Baihetan hydropower station is jointed rock mass formed by the combined cutting effect of original joint and aphanitic micro-cracks. Due to the difference of born modes， structures， attitudes and mechanical properties， the failure mode of columnar jointed basalt under various stress states is diverse. In this paper， D-CRDM method was used to simulate unloading process of columnar jointed basalt， and to analyze the failure mechanism and mode of columnar jointed basalt combining with in-situ AE test. This study indicates that in the unloading process， original joints are easy to cause surface spalling in tension state whereas aphanitic micro-cracks were inclined to induce internal cracks of surrounding rock in tension or compression and overall collapse of rock mass. The research results are justified by in-situ observations， and meanwhile， it provides a reference in the selection of supporting methods for underground cavern.

Key words: geotechnical mechanics, columnar joint, original joint, aphanitic micro-cracks, failure mode

CLC Number:

TD311

JIN Chang-yu， HOU Xiao-le， LIU Dong， CUI Rui-rui. Numerical Simulation of Mechanical Properties of Columnar Jointed Basalt Under Unloading Condition[J]. Journal of Northeastern University Natural Science, 2016, 37(2): 243-248.

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Numerical Simulation of Mechanical Properties of Columnar Jointed Basalt Under Unloading Condition

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