Study of triaxial compression mechanical properties and pore-fracture characteristics of coal rocks in the Yili Basin, Xinjiang

IF 0.6 4区 工程技术 Q4 MECHANICS
Cheng Shen, Ling Yue, Yang Liu
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引用次数: 0

Abstract

Compressive mechanical properties and pore-fissure characteristics of coal rock specimens from three stably developed coal seams M 1 , M 8 and M 12 in the Xinjiang Yili Basin were investigated in detail by a series of tests. The results show that the compressive mechanical properties of coal rocks in the Yili Basin are significantly affected by the confining pressure. The peak axial stress increases and the peak modulus of elasticity decreases as the confining pressure increases. The peak axial strain increases and then remains constant, while the peak circumferential strain and peak volumetric strain increase and then decrease. The confining pressure has almost no effect on Poisson’s ratio of the coal rock specimens. In addition, electron microscopy tests show that the microscopic fraction of the coal rock specimens is predominantly vitrinite, accounting for 83.1%-89.2%, while the percentage of the inertinite group is relatively small, at 10.3%-16.1%. The throat radius of the coal rock is mainly concentrated around 1-2 µ m, while the pore radius of the coal rock is between 150-200 µ m. The coal rock has an overall fine throat and low permeability, and the coal rock in the Yili Basin of Xinjiang is a typical low-permeability coal rock.
新疆伊犁盆地煤岩三轴压缩力学特性及孔隙破裂特征研究
通过一系列试验,对新疆伊犁盆地稳定发育的m1、m8和m12煤层煤岩试样的压缩力学特性和孔隙裂隙特征进行了详细研究。结果表明,围压对伊犁盆地煤岩压缩力学特性有显著影响。随着围压的增大,峰值轴向应力增大,峰值弹性模量减小。轴向应变峰值先增大后保持不变,周向应变峰值和体积应变峰值先增大后减小。围压对煤岩试样泊松比几乎没有影响。此外,电镜测试表明,煤岩样品显微组分以镜质组为主,占83.1% ~ 89.2%,惰质组所占比例较小,为10.3% ~ 16.1%。煤岩喉道半径主要集中在1 ~ 2µm左右,孔隙半径在150 ~ 200µm之间,煤岩整体喉道细,渗透率低,新疆伊犁盆地煤岩属于典型的低渗透煤岩。
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来源期刊
CiteScore
1.40
自引率
14.30%
发文量
22
审稿时长
6 months
期刊介绍: The scope of JTAM contains: - solid mechanics - fluid mechanics - fluid structures interactions - stability and vibrations systems - robotic and control systems - mechanics of materials - dynamics of machines, vehicles and flying structures - inteligent systems - nanomechanics - biomechanics - computational mechanics
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