峰后破裂岩石加、卸载围压过程渗流特性的试验

Experimental studies on seepage characteristics during the loading and unloading confining pressure of post-peak fractured rock

  • 摘要: 针对岩石裂隙面因加、卸载围压环境而引起渗流特性的改变,采用自行研制的温度-应力-渗流多场耦合岩石三轴试验系统,开展峰后破裂岩石加、卸载围压过程的渗流试验,研究峰后岩石裂隙在不同围压加、卸载路径下的非线性渗流特征。为了量化裂隙岩石非线性渗流过程,采用Forchheimer公式对水力梯度与渗流流量之间的关系进行拟合分析,将峰后破裂岩石渗流过程划分为线性Darcy流阶段与非线性Darcy流阶段,引入非线性影响因子E,作为区分达西流与非达西流的临界点。对比加、卸载围压过程中相同渗透压力下的裂隙渗流流量与裂隙渗透性,分析产生渗流差异性的发生机制。研究表明:峰后破裂岩石在围压的加载过程中,其渗流主要表现为非线性特征,裂隙的渗透性随围压增大而逐渐减小。在高围压作用下,虽然裂隙面会产生一定程度的压缩闭合,但存在的少量张拉裂隙会逐渐扩展和连通,可能会引起峰后破裂岩石的渗透性发生改变。当围压从较高水平卸荷后,且裂隙面渗透压力处于较低水平下时,裂隙渗透性没有增加反而减小,表明裂隙面在加、卸载围压和过流冲刷的共同影响下发生了不可逆的变形,导致裂隙面开度的逐步降低。当围压卸载到与加载过程同一水平时,各级渗透压力下的渗流流量均大幅下降,表明裂隙面的渗流能力的恢复存在明显的滞后效应。

     

    Abstract: In order to study the effect of loading and unloading confining pressure on the seepage characteristics of rock fractures,a self-developed temperature-stress-seepage multi-field coupled rock triaxial test system was used to carry out the seepage tests of post-peak fractured rock under the process of loading and unloading confining pressure. The non- linear seepage characteristics under different paths of loading and unloading confining pressure were investigated. To quantify the nonlinear seepage process of fractured rock,the Forchheimer formula was used to fit the relationship be- tween the hydraulic gradient and seepage flow. Dividing the seepage process of post-peak fractured rock into linear Darcy flow stage and nonlinear Darcy flow stage,a nonlinear influence factor E was introduced as the critical point for distinguishing Darcy flow from non-Darcy flow. The relationship between seepage flow and permeability under the same conditions of the process of loading and unloading confining pressure was compared,and the mechanism behind the seepage difference was analyzed. Results indicate that the seepage was mainly shown up as nonlinear characteristics, and the permeability decreased with the increase of the confining pressure during the process of loading confining pres- sure of post-peak fractured rocks. However,under the action of high confining pressure,although the fracture surface will produce a certain degree of compression closure,a small number of tension cracks will gradually expand and con- nect,which may alter the permeability of the post-peak fractured rock. When the confining pressure was unloaded from a higher level and the osmotic pressure of the fracture surface was at a lower state,the permeability of the fracture did not increase but decrease. This result indicates that the fracture surface had irreversible normal deformation under the combined influence of the loading and unloading confining pressure and overflowing scouring,resulting in the gradual decrease in the opening of the fracture surface. When the confining pressure was unloaded to the same level as the loading process,the seepage flow under the osmotic pressure of each level dropped sharply,indicating that there was a significant hysteresis effect on the recovery of the seepage capacity of the fracture surface.

     

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