含孔软煤试样破坏过程的细观裂纹损伤演化机制
The mechanism of meso-crack damage evolution in the failure process of porous soft coal specimens
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摘要: 细观裂纹的损伤累积是造成抽采钻孔孔周形成大面积裂隙漏气通道的主要原因之一。孔周细观裂纹的损伤累积表现为孕育、稳定发展及快速发展3个阶段。为探究孔周松软煤体在不同阶段的损伤演化和裂纹扩展特征,开展含孔软煤试样单轴压缩破坏过程中的细观裂纹损伤规律研究。将石膏与水以质量比7∶3混合制成类软煤含孔方形试样,进行单轴压缩试验并采用数字散斑相关测量方法(DSCM)获取试样表面全场变形。基于此,提出了利用DSCM系统确定即时泊松比的方法,并将其用于计算细观裂纹密度以及松软煤体受荷载作用时的细观裂纹损伤本构关系的建立。结果表明:①基于DSCM技术,可以准确、可靠的求得含孔软煤试样的泊松比。②细观裂纹损伤的孕育和稳定发展阶段,细观裂纹密度增长缓慢,试样表面未出现明显的宏观裂纹。损伤的快速发展阶段,细观裂纹密度呈现指数式的增长,此时远离孔边的区域产生了明显可见的宏观裂纹。③弹性阶段微裂纹扩展十分缓慢,塑性阶段微裂纹扩展速率加快,应力峰值点是微裂纹扩展加速的突变点。④建立了松软媒体受荷载作用时的损伤演化模型,即时泊松比可以体现松软煤体细观损伤的非弹性等力学效应。Abstract: The accumulation of meso-crack damage is one of the main reasons for the formation of large-area fractured air leakage channels around the drainage boreholes. The damage accumulation of mesoscopic cracks around the hole is manifested in three stages:incubation,stable development and rapid development. In order to explore the damage evolution and crack propagation characteristics of the porous soft coal at different stages,a study on the meso-crack damage law of the porous soft coal sample during the uniaxial compression failure process was carried out. Gypsum and water were mixed at a mass ratio of 7∶3 to make a square sample of soft coal with holes. The uniaxial compressive test was performed and the digital speckle correlation measurement method (DSCM)was used to obtain the complete deformation of the sample surface. Based on this,a method of using the DSCM system to determine the instant Poisson’s ratio was proposed,and it was used to calculate the micro-crack density and the establishment of the constitutive relationship of the micro-crack damage when the soft coal was loaded. The results show that:①based on DSCM technology,the Poisson’s ratio of porous soft coal samples can be obtained accurately and reliably. ②during the incubation and stable development stage of meso-crack damage,the density of meso-cracks grows slowly,and no obvious macro-cracks appear 〖JP2〗on the surface of the specimen. During the rapid development stage of damage,the density of mesoscopic cracks increased exponentially. At this time,the area far from the edge of the hole has visible macroscopic cracks. ③The growth of microcracks in the elastic stage is very slow,and the growth rate of microcracks in the plastic stage is accelerated,and the stress peak point is the catastrophic point of the acceleration of microcrack growth. ④The damage evolution model of the soft media under load is established,and the instant Poisson’s ratio can reflect the inelastic and other mechanical effects of the soft coal body’s meso-damage.