破碎矸石侧限承载条件下的宏-细观尺寸效应研究  

作　　者：李晓彤 黄艳利[1] 王贵圆 余宏 赵刚 雷永超 李俊孟 LI Xiaotong;HUANG Yanli;WANG Guiyuan;YU Hong;ZHAO Gang;LEI Yongchao;LI Junmeng(School of Mines,China University of Mining and Technology,Xuzhou,Jiangsu 221116,China;Comprehensive Geological Exploration Team,Xinjiang Coal Field Geology Bureau,Urumqi,Xinjiang 830026,China;National Energy Group Xinjiang Energy Co.,Ltd.,Urumqi,Xinjiang 830027,China)

机构地区：[1]中国矿业大学矿业工程学院,江苏徐州市221116 [2]新疆煤田地质局综合地质勘探队,新疆乌鲁木齐830026 [3]国家能源集团新疆能源有限责任公司,新疆乌鲁木齐830027

出　　处：《矿业研究与开发》2023年第7期123-130,共8页Mining Research and Development

基　　金：国家自然科学基金项目(52104103,52022107,52174128);江苏省自然科学基金项目(BK20210499).

摘　　要：矸石充填体在承压过程中力学性能受充填体尺寸的影响较大,实验室力学参数测试结果很难反映工程实际情况。为研究破碎矸石充填体侧限承压条件下的力学性能尺寸效应,借助实验室试验和颗粒流数值模拟,从宏-细观尺度分析了破碎矸石试件的直径与径高比对其承载性能的影响。结果表明:试件直径对其宏观力学性能影响显著,随着试件直径增大其抗变形能力明显减弱;破碎矸石的孔隙率变化量随试件直径增大而增加;其压缩过程中试件两侧的矸石块发生挤压破碎,细颗粒逐步填充至试件中部,颗粒配位数随试件的可变形空间增加而增大;在应力加载阶段,颗粒逐渐破碎,颗粒力链由“环状力链”演化为“柱状力链”,平均接触力变化率表明体积大的试件更易达到抗压缩变形能力极限;矸石试件主要以拉伸破坏为主,矸石块的破碎程度随试件尺寸增加而增大。研究成果对矿山充填开采的充填物料选择具有重要意义。The mechanical properties of gangue backfill are greatly affected by the size of the backfill during the pressure bearing process,and the mechanical parameter testing results in laboratory are difficult to reflect the actual engineering situation.In order to study the size effect of mechanical properties of broken gangue backfill under confined pressure,laboratory tests and grain flow numerical simulation were used to analyze the influences of diameter and diameter-height ratio of broken gangue specimens on its bearing capacity from macro-meso scale.The results are concluded as follows.Firstly,the diameter of the specimen has a significant impact on its macroscopic mechanical properties,and its deformation resistance decreases significantly with the increase of the specimen diameter.Secondly,the change in porosity of broken gangue increases with the increase of specimen diameter.Thirdly,during compression,the gangue blocks on both sides of the specimen are crushed,and the fine particles are gradually filled into the middle of the specimen.The coordination number of particles increases with the increase of the deformable space of the specimen.Fourthly,in the stress loading stage,the particles gradually break up,and the particle force chain evolves from a‘ring force chain’to a‘column force chain’.The average change rate of contact force indicates that the larger the specimen is,the easier it is to reach the limit of compression deformation resistance.Finally,the gangue specimens are mainly subjected to tensile failure,and the degree of fragmentation of the gangue blocks increases with the increase of specimen size.The research results are of great significance for the selection of filling materials in backfill mining.

关 键 词：矸石充填体 力学性能 尺寸效应 侧限压缩 细观组构 

分 类 号：TD803[矿业工程—矿山开采]