Abstract

Strength anisotropy is one of the most distinct features of anisotropic rocks, and it also normally reveals strong anisotropy in Brazilian test Strength (“BtS”). Theoretical research on the “BtS” of anisotropic rocks is seldom performed, and in particular some significant factors, such as the anisotropic tensile strength of anisotropic rocks, the initial Brazilian disc fracture points, and the stress distribution on the Brazilian disc, are often ignored. The aim of the present paper is to review the state of the art in the experimental studies on the “BtS” of anisotropic rocks since the pioneering work was introduced in 1964, and to propose a novel theoretical method to underpin the failure mechanisms and predict the “BtS” of anisotropic rocks under Brazilian test conditions. The experimental data of Longmaxi Shale-I and Jixi Coal were utilized to verify the proposed method. The results show the predicted “BtS” results show strong agreement with experimental data, the maximum error is only ~6.55% for Longmaxi Shale-I and ~7.50% for Jixi Coal, and the simulated failure patterns of the Longmaxi Shale-I are also consistent with the test results. For the Longmaxi Shale-I, the Brazilian disc experiences tensile failure of the intact rock when 0° ≤ βw ≤ 24°, shear failure along the weakness planes when 24° ≤ βw ≤ 76°, and tensile failure along the weakness planes when 76° ≤ βw ≤ 90°. For the Jixi Coal, the Brazilian disc experiences tensile failure when 0° ≤ βw ≤ 23° or 76° ≤ βw ≤ 90°, shear failure along the butt cleats when 23° ≤ βw ≤ 32°, and shear failure along the face cleats when 32° ≤ βw ≤ 76°. The proposed method can not only be used to predict the “BtS” and underpin the failure mechanisms of anisotropic rocks containing a single group of weakness planes, but can also be generalized for fractured rocks containing multi-groups of weakness planes.

Highlights

  • Anisotropy is one of the most distinct features considered in engineering rock mechanics, and is applied in civil, mining, geothermal, geo-environmental, and petroleum engineering [1,2,3,4].Most anisotropic rocks, such as shale, mudstone, sandstone, slate, gneiss, schist, coal, and marl, present anisotropic mechanical behavior, and these anisotropic rocks usually play an important role in rock engineering

  • In order to demonstrate the performance of the “Brazilian test Strength (BtS)” modeling, the Brazilian Disc Test (BDT) results of Longmaxi

  • It can only be used to predict the “BtS” for anisotropic rocks with weak or medium anisotropy, but its influence should be considered for strong anisotropy because the anisotropic modulus has a notable effect on the stress distribution on the Brazilian disc

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Summary

Introduction

Anisotropy is one of the most distinct features considered in engineering rock mechanics, and is applied in civil, mining, geothermal, geo-environmental, and petroleum engineering [1,2,3,4].Most anisotropic rocks, such as shale, mudstone, sandstone, slate, gneiss, schist, coal, and marl, present anisotropic mechanical behavior, and these anisotropic rocks usually play an important role in rock engineering. The results have indicated that the mechanical properties of anisotropic rocks vary with sampling direction, and engineering applications that do not consider the anisotropic behavior usually produce errors of differing magnitudes, depending on the extent of anisotropy [2]. Most of these studies focus on the anisotropy of deformation, modulus, compressive strength, and shear strength, while the anisotropy of tensile strength is seldom studied. In 1943, a new type of ITT method, the Brazilian Disc Test (BDT) method, was developed to test the tensile strength of concrete [22,23]

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