| 煤岩两体模型变形破坏数值模拟 |
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| 引用本文: | 王学滨.煤岩两体模型变形破坏数值模拟[J].岩土力学,2006,27(7):1066-1070. |
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| 作者姓名: | 王学滨 |
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| 作者单位: | 辽宁工程技术大学,力学与工程科学系,辽宁,阜新,123000 |
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| 摘 要: | 采用拉格朗日元法,在弹性岩石与弹性-应变软化煤体所构成的平面应变两体模型的上、下端面上不存在水平方向摩擦力条件下,模拟了模型的破坏过程、岩石高度对模型及煤体全程应力-应变曲线、煤体变形速率、煤体破坏模式及剪切应变增量分布的影响.结果表明,当模型的全程应力-应变曲线达到峰值时煤体内部的剪切带图案已经十分明显,在模型的应变硬化阶段,煤体中的应变局部化可视为模型失稳破坏的前兆,随岩石高度的增加,模型应力-应变曲线的软化段变得陡峭,这与单轴压缩条件下的解析解在定性上是一致的;煤体应力-应变曲线的软化段变得平缓,煤体消耗能量的能力增强;弹性阶段煤体的变形速率降低;煤体内部的剪切应变增量增加.煤体应力-应变曲线的软化段的斜率、弹性阶段煤体的变形速率、煤体内部的剪切应变增量及塑性耗散能都受岩石高度的影响,说明了岩石几何尺寸对煤体的影响(煤岩相互作用)是不容忽视的.
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| 关 键 词: | 两体模型 弹性岩石 弹性-应变软化煤体 相互作用 剪切带 全程应力-应变曲线 |
| 文章编号: | 1000-7598-(2006)07-1066-05 |
| 收稿时间: | 2004-10-12 |
| 修稿时间: | 2004-10-122005-02-21 |
Numerical simulation of deformation and failure for two bodies model composed of rock and coal |
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| WANG Xue-bin.Numerical simulation of deformation and failure for two bodies model composed of rock and coal[J].Rock and Soil Mechanics,2006,27(7):1066-1070. |
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| Authors: | WANG Xue-bin |
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| Institution: | Department of Mechanics and Engineering Sciences, Liaoning Technical University, Fuxin 123000, China |
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| Abstract: | The failure process of plane strain two bodies model composed of rock specimen that is always elastic and coal specimen that is elastic prior to the peak stress and strain-softening beyond the peak and the effect of height of rock specimen on the complete stress-strain curves of model and coal specimen,the deformation rate and failure mode of coal specimen as well as the shear strain increment within coal specimen were numerically modeled by FLAC under the condition of smooth ends(no end-restraint effect).Numerical results show that when the peak stress of complete stress-strain curve of model is reached,the pattern of shear bands within coal specimen is very apparent.In strain-hardening stage of model,strain localization of coal specimen can be seen as a precursor to the unstable failure of model.Longer rock specimen leads to(1) steeper strain-softening branch of stress-strain curve of model,as is in qualitative agreement with the previous analytical solution that longer specimen results in steeper post-peak stress-strain in uniaxial compression;(2) more ductile strain-softening branch of stress-strain curves of coal specimen and higher plastic dissipated energy consumed by coal specimen;(3) lower deformation rate of coal specimen in stage elastic;and(4) higher shear strain increment within coal specimen.The slope of complete stress-strain curve beyond the peak stress of coal specimen,the deformation rate of coal specimen in stage elastic,the shear strain increment within coal specimen and the plastic dissipated energy consumed by coal specimen are influenced by the height of rock specimen,which reflects that the effect of geometrical size of rock specimen on the deformation and failure of coal specimen and the interaction between coal and rock specimens cannot be neglected. |
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| Keywords: | two bodies model elastic rock elastic and strain-softening coal interaction shear band complete stress-strain curve |
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