A series of cyclic and monotonic direct simple shear experiments was conducted on mixtures of non-plastic silt and bentonite, prepared with two different pore fluids: fresh deionized water, and saline-water with a 35 g/L concentration of NaCl (consistent with sea water). The clay fractions were adjusted to achieve a plasticity index of PI=9, with the fresh-water blend requiring 5% bentonite and the saline water blend requiring 10% bentonite. Though both blends have the same plasticity index, differences in cyclic behavior were observed. The relationship of cyclic stress ratio versus number of cycles and the ratio of cyclic stress to monotonic undrained strength was higher for the saline water blend than for the fresh water blend. Results indicate that plasticity index alone is an insufficient indicator of cyclic strength. Corrections for pore fluid chemistry (and by extension, depositional environment) may be necessary, in addition to possibly other factors, for procedures to assess the potential for liquefaction susceptibility and cyclic softening.
展开▼
机译:对非塑料粉砂和膨润土的混合物进行了一系列循环和单调直接简单剪切实验,这些混合物是用两种不同的孔隙液制备的:新鲜去离子水和浓度为35 g / L NaCl的盐水(与海水一致)。水)。调节粘土部分以达到PI = 9的可塑性指数,其中淡水混合物需要5%的膨润土,而盐水混合物需要10%的膨润土。尽管两种共混物具有相同的可塑性指数,但观察到了循环行为的差异。盐水混合物的循环应力比与循环数之间的关系以及循环应力与单调不排水强度的比高于淡水混合物。结果表明,仅可塑性指数不足以表明循环强度。除可能的其他因素外,对于评估液化敏感性和循环软化潜力的程序,可能还需要对孔隙流体化学(以及扩展而言,沉积环境)进行校正。
展开▼
