初始剪应力与加荷速率共同作用下饱和软黏土孔压模型试验研究

通过GDS循环三轴试验系统，对循环荷载作用下饱和软黏土的孔压变化规律进行了研究，分析了循环应力比，初始剪应力与振动频率对孔隙水压力的影响。研究结果表明：随着循环应力比的增加，孔压发展速度增快。循环荷载作用下饱和软黏土存在临界循环应力比，通过孔压也可以确定其值大小。在循环初期，孔压率较大，随着循环时间的增加，孔压率逐渐减小。随着循环应力比的增加，孔压率增加。振动频率对孔压比-循环次数关系影响明显，随着频率的增加，孔压比减小；然而，当振动频率大于1 Hz时，振动频率对孔压比-时间与孔压率-时间关系影响不明显。随着初始剪应力的增大，孔压增加。初始剪应力对应变率具有显著影响；随着初始剪应力的增加，应变率增加。在对数坐标下，孔压率与时间呈线性关系。在上述试验基础上建立了孔压率与时间关系表达式，通过积分得到了循环荷载作用下饱和软黏土的动孔压模型

Experiment study of coupling effect of initial shear stress and loading rate on pore water pressure model of soft clay

The pore water pressure of saturated soft clay under cyclic loading is researched by GDS cyclic triaxial system.The effects of cyclic stress ratio,initial shear stress and vibration frequency on pore water pressure are analyzed.It is observed that the pore water pressure increases with the increase of cyclic stress ratio.There is critical cyclic stress ratio of soft clay under cyclic loading.The value of critical cyclic stress ratio can also be obtained by pore water pressure curves.At the beginning of cycl...