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超固结土三轴率敏性特性及影响因素分析
Investigation of triaxial rate-dependent characteristic and its influencing factors of remoulded over-consolidated clay
【摘要】 为建立超固结土的弹黏塑性本构模型并预测其长期变形,研究土体不同应力历史的时间相依变形特性,采用土体率敏性三轴试验,对预加800k Pa有效应力历史的饱和黏土开展不同加载速率下的三轴剪切试验,并通过改变有效围压(50,100,200和400kPa)、细砂含量(占比0%,10%和20%)和加载速率(0.5625%/min,0.037 5%/min和0.002 5%/min)等方式,深入探讨超固结比、黏性以及应变速率对土体变形特征的影响,引入能通过试验测定的应变率参数ρ来表征黏土率敏性大小。试验结果表明:归一化不排水抗剪强度随超固结比(OCR)单调递增;随着OCR的增大,土体剪胀软化越明显;应变速率与土体的抗剪强度呈半对数线性关系;随着含砂的降低,土体的黏性增大,剪胀软化也越明显;率敏性随超固结比的增大而增强,土体黏性越大率敏性就越显著。
【Abstract】 In order to establish an elasto-viscoplasticity constitutive model and predict its long-term deformation of over-consolidated clay, their time-dependent deformation characteristics with different stress history needed to be investigated by the rate-dependent triaxial shear test, which is a very effective method to measure timedependent deformation. The undrained triaxial shear compression tests were performed on saturated clay with an effective stress history of pre-stressing confining pressure of 800 kPa, and the influence of over-consolidated ratio, strain rate, and viscosity on mechanics characteristics of saturation remolded clay was investigated by changing confining pressure of 50, 100, 200, and 400 kPa, and sand content of 0%, 10%, and 20%, and strain rate of 0.562 5%/min, 0.0375%/min and 0.002 5%/min, respectively. The strain rate parameter ρ determined by the tests was chosen to indicate the strain rate sensitivity. The experimental result shows that: normalized undrained shear strength increases monotonously with over-consolidation ratio; dilatancy and softening property of clay becomes more obvious with the increase of over-consolidated ratio; strain rate shows a half logarithm linear relationship with shear strength of clay; when viscosity of clay increases with the decrease of sand content, dilatancy and softening property of clay also becomes more obvious; rate sensitivity of clay is enhanced with the increase of over consolidation ratio, and it also becomes more obvious with higher viscosity.
【Key words】 over-consolidated clay; rate-dependent; strain rate parameter; viscosity;
- 【文献出处】 铁道科学与工程学报 ,Journal of Railway Science and Engineering , 编辑部邮箱 ,2019年01期
- 【分类号】TU432
- 【下载频次】128