基于尖点突变理论的充填体下采空区安全顶板厚度计算模型  被引量:46

A computational model of safe thickness of roof under filling body based on cusp catastrophe theory

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作  者:徐恒[1,2] 王贻明[1,2] 吴爱祥[1,2] 李芳芳[1] 高维鸿[1,2] XU Heng WANG Yiming WU Aixiang LI Fangfang GAO Weihong(School of Civil and Environment Engineering, University of Science and Technology Beijing, Beijing 100083, China Key Laboratory of High-efficient Mining and Safety of Metal Mines, Ministry of Education, University of Science and Technology Beo'ing, Beijing 100083, China)

机构地区:[1]北京科技大学土木与环境工程学院,北京100083 [2]北京科技大学金属矿山高效开采与安全教育部重点实验室,北京100083

出  处:《岩石力学与工程学报》2017年第3期579-586,共8页Chinese Journal of Rock Mechanics and Engineering

基  金:国家"十二五"科技支撑计划项目(2012BAB08B02)~~

摘  要:充填体下采空区顶板结构普遍存在于利用充填体进行回采的矿山。为了保证矿山的作业安全,合理确定充填体荷载作用下顶板厚度参数具有重要意义。在分析充填体下采空区顶板结构形成及破坏机制的基础上,建立该顶板结构的稳定性力学模型,应用尖点突变理论分析其失稳的力学机制。依据顶板结构尖点突变模型失稳的充分条件和必要条件,推导得到充填体下采空区顶板极限厚度值表达式。结合某铅锌矿工程实例,计算得到矿山安全顶板厚度应大于11.48 m,在数值模拟验证和实际生产中,取顶板厚度值为12 m。验证结果表明:尖点突变理论可以有效阐释充填体下采空区顶板结构失稳的力学机制,而将其运用到顶板或类似结构的稳定性分析和参数设计中是合理可行的。The roof structure above goaf is prevalent in mines which use backfill method. Determining the reasonable thickness of the roof under the loads of filling body is important to guarantee the mine safety. The mechanisms of formation and failure of the roof above the goaf under the filling body were analyzed and a mechanical stability model of the roof structure was established to analyze the instability mechanism by applying the cusp catastrophe theory. The expression of the limit thickness of the goaf roof under filling body was deduced according to the sufficient condition and necessary condition of roof structure instability in cusp catastrophe model The expression was applied to a lead and zinc mine and the safe roof thickness was calculated to be larger than 11.48 m. 12 m was used as the safe thickness and verified in the practical production and numerical simulation.

关 键 词:采矿工程 尖点突变模型 厚度计算 数值模拟 

分 类 号:TD211[矿业工程—矿井建设]

 

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