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Mechanical and damage evolution properties of sandstone under triaxial compression 被引量:15
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作者 Zong Yijiang Han Lijun +1 位作者 Wei Jianjun Wen Shengyong 《International Journal of Mining Science and Technology》 SCIE EI CSCD 2016年第4期601-607,共7页
To study the mechanical and damage evolution properties of sandstone under triaxial compression, we analyzed the stress strain curve characteristics, deformation and strength properties, and failure process and charac... To study the mechanical and damage evolution properties of sandstone under triaxial compression, we analyzed the stress strain curve characteristics, deformation and strength properties, and failure process and characteristics of sandstone samples under different stress states. The experimental results reveal that peak strength, residual strength, elasticity modulus and deformation modulus increase linearly with confining pressure, and failure models transform from fragile failure under low confining pressure to ductility failure under high confining pressure. Macroscopic failure forms of samples under uniaxial compression were split failure parallel to the axis of samples, while macroscopic failure forms under uniaxial compression were shear failure, the shear failure angle of which decreased linearly with confin- ing pressure. There were significant volume dilatation properties in the loading process of sandstone under different confining pressures, and we analyzed the damage evolution properties of samples based on acoustic emission damage and volumetric dilatation damage, and established damage constitutive model, realizing the real-time Quantitative evaluation of samnles damage state in loading process. 展开更多
关键词 rock mechanics Mechanical properties Dilatation Damage evolution Failure characteristics
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Analysis on the anchor mechanism of the full length resin bolt
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作者 宋彦波 刘洪涛 《Journal of Coal Science & Engineering(China)》 2003年第1期79-81,共3页
The purpose of this paper is to reveal the stress distribution characteristic along the full length anchor bolt. Based on the mechanic model set up, the author calculated the anchor mechanism of the full length resin ... The purpose of this paper is to reveal the stress distribution characteristic along the full length anchor bolt. Based on the mechanic model set up, the author calculated the anchor mechanism of the full length resin rock bolt. The stress distribution characteristic is different according to different type of surrounding rock. The conclusion is important to optimize the roadway bolt support design. 展开更多
关键词 anchor mechanism full length resin rock bolt stress distribution characteristic bolt support design
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