Abstract
Cement grout is widely used in civil engineering and mining engineering. The shear behaviour of the cement grout plays an important role in determining the stability of the systems. To better understand the shear behaviour of the cement grout, numerical direct shear tests were conducted. Cylindrical cement grout samples with two different strengths were created and simulated. The numerical results were compared and validated with experimental results. It was found that, in the direct shear process, although the applied normal stress was constant, the normal stress on the contacted shear failure plane was variable. Before the shear strength point, the normal stress increased slightly. Then, it decreased gradually. Moreover, there was a nonuniform distribution of the normal stress on the contacted shear failure plane. This nonuniform distribution was more apparent when the shear displacement reached the shear strength point. Additionally, there was a shear stress distribution on the contacted shear failure plane. However, at the beginning of the direct shear test, the relative difference of the shear stresses was quite small. In this stage, the shear stress distribution can be assumed uniform on the contacted shear failure plane. However, once the shear displacement increased to around the shear strength point, the relative difference of the shear stresses was obvious. In this stage, there was an apparent nonuniform shear stress distribution on the contacted shear failure plane.
Highlights
Cement is grey fine powder that is widely used in civil engineering and mining engineering [1, 2]
Cement is usually mixed with water to form the cement grout, which is poured into drilled boreholes to bond the reinforcing tendon, such as rock bolts and cable bolts, with the surrounding rock masses [5]
A vast of research has been conducted to study the mechanical behaviour of cement grout [7]. ose studies can be basically divided into studying the axial behaviour of the cement grout and shear behaviour of the cement grout
Summary
Cement is grey fine powder that is widely used in civil engineering and mining engineering [1, 2]. To study the shear behaviour of cement grout, researchers commonly used triaxial tests and direct shear tests. A vast of triaxial tests were conducted by Chen and Xu [21] to study the performance of the cement grout under the high confining pressure condition. Erefore, the direct shear test was a better approach to study the shear behaviour of the cement grout for the rock reinforcement scenario. Ey found that when the w/c ratio was 0.3, the shear strength of the cement-based sample increased apparently with normal stress. When the w/c ratio was 0.4, the shear strength of the cement-based sample did not increase much with the normal stress. Numerical direct shear tests were performed to evaluate the shear behaviour of the cement grout. The shear stress distribution on the shear failure plane was investigated
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