采场开采过程中边缘区煤层变形状态及破坏情况

N.V. Cherdantsev
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引用次数: 0

摘要

煤层边缘带的变形场和位移场是根据塑性流动的相关规律确定的,其中应力分量是在先前建立的含煤层岩体及其采场的地质力学状态模型的框架内构建的。该模型采用苏联科学家索科洛夫斯基(V.V. Sokolovsky)提出的体介质力学方法确定了煤层极限区的应力。根据库仑-莫尔准则,煤层边缘区部分破坏进入符合理想化普朗特图的极限状态(未硬化)的条件是超过煤样在单轴压缩破坏过程中变形所对应的塑性变形强度极限指标。这一指标是根据煤样的实验室实验结果,或根据有关煤层力学特性的现有参考资料确定的。部分煤层的破坏可能伴随有冲击地压等动力现象。在极应力带中,煤层变形不仅伴随着厚度的减小,而且伴随着边缘向采空区内移动。由于采空区的规模很大,这些位移(胀形)可以延伸到几十厘米。
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Deformed State of the Coal Seam in the Marginal Zone and the Condition of its Destruction during Mining by a Stope Working
The fields of deformations and displacements of the marginal zone of the coal seam are determined on the basis of the associated law of plastic flow, in which the stress components are constructed within the framework of the previously developed model of the geomechanical state of the rock mass containing the coal seam and the workings passed through it. In this model, the stresses in the limiting zone of the seam are determined by the methods of mechanics of the bulk medium developed by the soviet scientist V.V. Sokolovsky. The condition for the destruction of the part of the marginal zone of the coal seam, which, according to the Coulomb-Mohr criterion, passed into the limit state (without hardening), that corresponds to the idealized Prandtl diagram, is that it exceeds the limiting indicator of the intensity of plastic deformations corresponding to the deformations of the coal sample during its uniaxial destruction by compression. This indicator is determined by the results of laboratory experiments with coal samples, or on the basis of available reference information on the mechanical characteristics of coal seams. Destruction of the part of the seam may be accompanied by such a dynamic phenomenon as a rock burst. Seam deformation in the extremely stressed zone is accompanied not only by a decrease in its thickness, but also by the movement of its edge into the goaf. With a significant size of the mined-out space, these displacements (bulging) can extend to several tens of centimeters.
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来源期刊
Bezopasnost'' Truda v Promyshlennosti
Bezopasnost'' Truda v Promyshlennosti Environmental Science-Environmental Science (miscellaneous)
CiteScore
1.00
自引率
0.00%
发文量
110
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