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吴宏伟, 李 青, 刘国彬. 上海黏土一维压缩特性的试验研究[J]. 岩土工程学报, 2011, 33(4): 630.
引用本文: 吴宏伟, 李 青, 刘国彬. 上海黏土一维压缩特性的试验研究[J]. 岩土工程学报, 2011, 33(4): 630.
NG C W W, LI Qing, LIU Guo-bin. Characteristics of one-dimensional compressibility of Shanghai clay[J]. Chinese Journal of Geotechnical Engineering, 2011, 33(4): 630.
Citation: NG C W W, LI Qing, LIU Guo-bin. Characteristics of one-dimensional compressibility of Shanghai clay[J]. Chinese Journal of Geotechnical Engineering, 2011, 33(4): 630.

上海黏土一维压缩特性的试验研究

Characteristics of one-dimensional compressibility of Shanghai clay

  • 摘要: 虽然上海黏土的压缩特性已得到了广泛研究,但是关于上海黏土的压缩特性特别是其长期压缩特性与国际上其他天然黏土的比较相对较少。采用取自上海浦西某基坑不同深度的原状土样进行一系列常规及长达70 d的长期一维压缩试验。主要目的是为了研究上海黏土的压缩特性尤其是其次压缩特性,并与国际上其他典型黏土进行比较。试验结果表明:上海黏土的压缩指数Cc相对较小,分布在0.43~0.50的范围之内。研究发现固结压力小于或接近前期固结压力时,次压缩系数C??基本不变,然而当固结压力大于前期固结压力时,次压缩系数C??随时间急剧减小。与其他典型黏土相比,上海黏土的C??/Cc值略大于无机质黏土及粉土的下限值。按照Mesri (1973)提出的以次压缩系数为基础的土体划分标准,可以将上海黏土划分为低至中等次压缩性土体。

     

    Abstract: Although the compressibility of Shanghai clay has been widely investigated over the years, few attempts have been made to compare the characteristics of the clay with those of other natural clays worldwide, in particular its long-term behaviours. A number of series of conventional and long-term consolidation tests up to 70 days on natural undisturbed samples are described and reported. These samples are taken from different soil layers in a basement excavation in Puxi area in Shanghai. The main objectives of these tests are to investigate the compressibility, especially the secondary compression of Shanghai clay and to compare the measured results with those of other typical natural clays worldwide. Experimental results reveal that the compression index Cc of Shanghai clay is relatively small ranging from 0.43 to 0.50. The coefficient of the secondary compression C? is found to be almost constant when the vertical consolidation pressure is smaller than or close to the preconsolidation pressure, while C????decreases significantly with time when the consolidation pressure is beyond the preconsolidation pressure. By comparing the measured C??/Cc ratios of Shanghai clay with those of other typical natural soils worldwide, the ratio is found to fall within the lower range of those for inorganic clay and silt. Based on the classifications by the coefficient of the secondary compression suggested by Mesri (1973), Shanghai clay can be classified as a soil with low to medium secondary compressibility.

     

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