Abstract
In order to understand the influence of unloading path on the mechanical properties of coal, triaxial unloading confining pressure tests with different initial confining pressure and different unloading rate were carried out. The test results show that the triaxial unloading strength of coal samples under different test conditions is lower than conventional triaxial tests, but the brittleness characteristics are more obvious. This result indicates that the coal samples are easily damaged under unloading conditions. In the axial loading stage of the confinement unloading tests, the axial strain plays a leading role. However, during the confining pressure unloading stage, the circumferential deformation is large, which is the main deformation in this stage. Higher unloading rates of confining pressure are associated with shorter times between the peak stress position and sample complete failure. This shows that samples are more easily destroyed under higher unloading rates and the samples are more difficultly destroyed under lower unloading rates. In addition, with increasing unloading rate, the peak principal stress difference and confining pressure at failure decrease gradually, whereas the confining pressure difference at failure increases gradually. Compared with conventional triaxial compression tests, the cohesion of coal is reduced and the internal friction angle is increased under the condition of triaxial unloading test.
Highlights
During excavation of chambers in hydropower projects, mining of deep ore bodies, and other underground projects, frequent disasters caused by high stress unloading, such as rock bursts and gangs, severely restrict the smooth construction of the project
In view of the importance of correct understanding of the mechanical properties of rock unloading and the importance of guiding significance for the prevention and control of mining engineering disasters, based on the triaxial unloading confining pressure tests of coal with different unloading rates and different initial unloading confining pressures, this paper studies the unloading strength characteristics and deformation laws of coal rocks under different unloading paths and reveals the control of unloading paths’ effect
In the middle and late stages of the confinement unloading test, an inflection point appears in the elastic modulus curve, which initially increases gradually and decreases gradually. e elastic modulus shows a nonlinear relationship with confining pressure
Summary
During excavation of chambers in hydropower projects, mining of deep ore bodies, and other underground projects, frequent disasters caused by high stress unloading, such as rock bursts and gangs, severely restrict the smooth construction of the project. Understanding the rock deformation and failure laws and mechanical characteristics under unloading conditions are the prerequisites and foundations for preventing such disasters. For this reason, Ha Qiuling carried out a lot of hard rock unloading mechanical tests research work and achieved many beneficial results [1,2,3,4,5]. In view of the importance of correct understanding of the mechanical properties of rock unloading and the importance of guiding significance for the prevention and control of mining engineering disasters, based on the triaxial unloading confining pressure tests of coal with different unloading rates and different initial unloading confining pressures, this paper studies the unloading strength characteristics and deformation laws of coal rocks under different unloading paths and reveals the control of unloading paths’ effect. Combined with the actual mining engineering, this paper discusses the engineering guiding significance of unloading test and provides theoretical basis for the prevention and control of unloading damage in mining roadway and working face
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