文章摘要
刘晓辉, 康佳辉, 余 洁, 郝齐钧.基于室内试验与数值模拟的煤岩围压效应研究Journal of Water Resources and Water Engineering[J].,2020,31(3):212-219
基于室内试验与数值模拟的煤岩围压效应研究
Effect of coal-rock confining pressure effect based on laboratory test and numerical simulation
  
DOI:10.11705/j.issn.1672-643X.2020.03.31
中文关键词: 煤岩  围压效应  三轴压缩  真实破裂过程分析系统  和声发射测试系统  变形破坏
英文关键词: coal-rock  confining pressure effect  triaxial compression  realistic failure process analysis(RFPA 2D)  mechanics testing system(MTS)  deformation and failure
基金项目:四川省教育厅重点项目(18ZA0457); 水沙科学与水利水电工程国家重点试验室开放研究基金课题(sklhse-2018-D-03); 西华大学自然科学重点基金项目(Z17113); 西华大学流体及动力机械教育部重点试验室创新基金课题(ycjj2018040)
Author NameAffiliation
LIU Xiaohui1,2, KANG Jiahui1, YU Jie1, HAO Qijun1 (1.西华大学 流体及动力机械教育部重点试验室 四川 成都 6100392.清华大学 水沙科学与水利水电工程国家重点试验室 北京 100084) 
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中文摘要:
      为研究不同围压下煤岩的变形破坏特征,对0、8、16、25 MPa 4种不同围压下的煤岩采用MTS 815岩石力学实验和RFPA 2D数值模拟软件展开应力应变特征、强度特征、声发射特征等研究,旨在揭示不同围压作用下煤岩的围压效应。结果表明:围压对煤岩的变形破坏特征影响显著,随着围压的增大,煤岩最大抗压强度线性增大,煤岩逐渐由脆性破坏向延性破坏转变,破坏形态以单轴压缩下的压剪-劈裂破坏和三轴压缩下的剪切破坏为主;煤岩强度特征参数随围压增大而增大,弹性模量随围压增大呈非线性增大,围压越大,则塑性应变越大,残余应变增大;声发射现象在煤岩单轴压缩状态下十分强烈,但随着围压的升高,声发射现象、应变能释放等声发射特征参数均趋于稳定;RFPA可再现煤岩在不同围压下裂纹萌生、扩展至完全破坏的渐进破坏过程,模拟结果与室内试验耦合度较好,验证了数值模拟的可靠性。
英文摘要:
      In order to understand the deformation and failure characteristics of coal-rock under different confining pressures and reveal the mechanism of confining pressure effect, the stress-strain characteristics, strength characteristics and acoustic emission (AE) characteristics of coal-rock under different confining pressures (i.e. 0, 8, 16 and 25MPa)were studied by MTS 815 rock mechanics testing system four and RFPA 2D(realistic failure process analysis system) numerical simulation software. The results show that the confining pressure has a significant influence on the deformation and failure characteristics of coal-rock. With the increase of the confining pressure, the maximum compressive strength of coal-rock increases linearly, and the failure form of coal-rock gradually changes from brittle failure to ductile failure. The main failure modes are compression shear splitting failure under uniaxial compression and shear failure under triaxial compression. The strength characteristic parameters of coal-rock increase with the confining pressure, and the elastic modulus increases nonlinearly with the confining pressure. The greater the confining pressure, the higher the plastic strain, the larger the residual strain. AE of coal-rock under uniaxial compression is superactive; however it remains stable with the increase of confining pressure, so does the strain energy release. RFPA can reproduce the progressive failure process of coal-rock from crack initiation to propagation to complete failure under different confining pressures. The simulation results are consistent with that of the laboratory test, which verifies the reliability of the numerical simulation.
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