顶板稳定性评价计算模型的简化论证

O. Ahafonov, Pjsc “Donetskstal”, D. Chepiga, A. Polozhiy, I. Bessarab, A. Korol, A. Petrenko, O. Tkachuk
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To substantiate and select methods for studying the bending deformations of the roof in the coal massif containing the maingates, the three-dimensional base plate model and the beam model are compared, taking into account the kinematic boundary conditions and the influence of external distributed load. Using the theory of plate bending, the equations for determining the deflections of the coal seam roof in three-dimensional basic models under certain assumptions have a large dimension. After the conditional division of the plate into beams of unit width and symmetrical section, when describing the normal deflections of the middle surface of the studied models, the transition from the partial derivative equation to the usual differential equations is carried out. In this case, the studies of bending deformations of roof rocks are reduced to solving a flat problem in the cross-section of the beam. 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引用次数: 0

摘要

目的。论证了用简化的煤层顶板计算模型估计其在外部荷载作用下稳定性的方便性和可接受性。方法。为了达到这一目的,利用板的弹性和弯曲理论的基本原理进行了研究,其中煤层顶板被表示为矩形板或具有不同支护条件的对称截面的梁的模型。结果。为了验证和选择含门煤层顶板弯曲变形的研究方法,在考虑运动边界条件和外分布荷载影响的情况下,对三维底板模型和梁模型进行了比较。利用板的弯曲理论,在一定的假设条件下,三维基本模型中确定煤层顶板挠度的方程具有较大的维数。在将板条件划分为单位宽度和对称截面的梁后,在描述所研究模型的中间表面的法向挠度时,将偏导数方程转换为通常的微分方程。在这种情况下,研究顶板的弯曲变形就归结为解决梁截面上的平坦问题。并对三维材料弹性和强度理论的计算结果进行了比较。对于具有对称截面的梁,挠度位于其倾斜角与施加载荷方向一致的平面上。计算没有考虑到施加在梁上的表面荷载强度之间的差异。在确定板模型中顶板挠度的幅度与梁模型的差异达到5%,这对于采矿问题是可以接受的。科学的新奇。为了研究模型在外均布荷载作用下的弯曲变形和确定顶板挠度的大小,在模拟板内选择单位宽度的条,该条具有对称截面,是板结构的特征构件,作为一个单独的承重单元,具有支撑物,该单元在弯曲时截面保持平坦。这种线性单元的挠度用梁的弯曲轴的微分方程来描述,而不考虑模型的整体刚度,其完全位移矢量与力线矢量重合。现实意义。在实验室中,为了研究外荷载作用下煤层顶板的弯曲变形及其对顶板稳定性的影响,建议采用单宽梁对称截面带支架的模型,该模型的类型由煤矿抽采布置时的岩压控制和顶板的二次支护决定。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
SUBSTANTIATION FOR SIMPLIFICATION OF CALCULATION MODELS FOR ASSESSMENT OF THE STABILITY OF ROOF ROCKS
Purpose. Substantiation of expediency and admissibility of use of the simplified calculation models of a coal seam roof for an estimation of its stability under the action of external loadings. Methods. To achieve this purpose, the studies have been performed using the basic principles of the theory of elasticity and bending of plates, in which the coal seam roof is represented as a model of a rectangular plate or a beam with a symmetrical cross-section with different support conditions. Results. To substantiate and select methods for studying the bending deformations of the roof in the coal massif containing the maingates, the three-dimensional base plate model and the beam model are compared, taking into account the kinematic boundary conditions and the influence of external distributed load. Using the theory of plate bending, the equations for determining the deflections of the coal seam roof in three-dimensional basic models under certain assumptions have a large dimension. After the conditional division of the plate into beams of unit width and symmetrical section, when describing the normal deflections of the middle surface of the studied models, the transition from the partial derivative equation to the usual differential equations is carried out. In this case, the studies of bending deformations of roof rocks are reduced to solving a flat problem in the cross-section of the beam. A comparison of solutions obtained by the methods of the three-dimensional theory of elasticity and strength of materials was performed. For a beam with a symmetrical section, the deflection lies in a plane whose angle of inclination coincides with the direction of the applied load. The calculations did not take into account the difference between the intensity of the surface load applied to the beam. Differences in determining the magnitude of the deflections of the roof in the model of the plate concerning the model of the beam reach 5%, which is acceptable for mining problems. Scientific novelty. To study the bending deformations and determine the magnitude of the roof deflection in models under external uniform distributed load, placed within the simulated plate, a strip of unit width was selected, which has a symmetrical cross-section and is a characteristic component of the plate structure and it is considered as a separate load-bearing element with supports, the cross-sections of this element is remained flat when bending. The deflection of such a linear element is described by the differential equations of the bent axis of the beam without taking into account the integral stiffness of the model, and the vector of its complete displacement coincides with the vector of the force line. Practical significance. In the laboratory, to study the bending deformations and their impact on the stability of the coal seam roof under external loads, it is advisable to use a model of a single width beam with a symmetrical section with supports, the type of which is determined by rock pressure control and secondary support of the maingate at the extraction layout of the coal mine.
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