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苗强强, 陈正汉, 朱青青. 非饱和含黏砂土不排水不排气力学特性三轴试验研究[J]. 岩土工程学报, 2022, 44(S1): 17-23. DOI: 10.11779/CJGE2022S1004
引用本文: 苗强强, 陈正汉, 朱青青. 非饱和含黏砂土不排水不排气力学特性三轴试验研究[J]. 岩土工程学报, 2022, 44(S1): 17-23. DOI: 10.11779/CJGE2022S1004
MIAO Qiang-qiang, CHEN Zheng-han, ZHU Qing-qing. Triaxial tests on mechanical properties of undrained and unvented unsaturated clayey sandy soil[J]. Chinese Journal of Geotechnical Engineering, 2022, 44(S1): 17-23. DOI: 10.11779/CJGE2022S1004
Citation: MIAO Qiang-qiang, CHEN Zheng-han, ZHU Qing-qing. Triaxial tests on mechanical properties of undrained and unvented unsaturated clayey sandy soil[J]. Chinese Journal of Geotechnical Engineering, 2022, 44(S1): 17-23. DOI: 10.11779/CJGE2022S1004

非饱和含黏砂土不排水不排气力学特性三轴试验研究

Triaxial tests on mechanical properties of undrained and unvented unsaturated clayey sandy soil

  • 摘要: 为研究非饱和含黏砂土在不同含水率、压实度、不排水不排气条件下的强度、变形和回弹模量特性,用改进的非饱和土三轴仪对广佛高速路基含黏砂土做了2类试验:①不排水不排气三轴剪切试验,控制干密度为1.85 g/cm3,含水率为10.47%,13.63%,14.5%和16.02%,围压为50,100,200 kPa,共12个试验;②循环加卸载条件下回弹模量试验,干密度控制为1.70,1.80,1.85 g/cm3,含水率控制为10.47%,13.63%和16.02%,围压和偏应力分别控制为100,200 kPa,共9个试验,采用6级应力式加卸载方式,每个试样在不排水不排气剪切条件下进行了2次加卸载循环。研究结果表明:最优含水率是土样内摩擦角、黏聚力、破坏形态发生变化的临界值;剪胀强弱与围压和含水率密切相关;剪胀性随围压和含水率的增加而逐渐减弱;随剪切的进行,孔隙水压力和孔隙气压力都先增大再减小,随剪胀的发生,孔隙气压力与孔隙水压力曲线逐渐分开,基质吸力增大;相同含水率,净围压越大,孔隙气压力和孔隙水压力也越大。通过数据分析,构建了含水率、压实度、回弹模量之间的多元非线性函数表达式;分析比较了含水率、压实度对回弹模量影响的显著性,发现含水率对回弹模量的影响远大于压实度的影响。本文的研究成果可为相关公路设计和施工提供有益的参考。

     

    Abstract: In order to study the characteristics of strength, deformation and resilience modulus of unsaturated clayey sands soil under the undrained and unvented condition at different water contents and compaction degrees, an improved unsaturated soil triaxial instrument is used. Two types of tests on the clayey sandy soil of the subgrade of Guangfo Expressway are carried out: (1) twevel undrained and unvented triaxial shear tests with the dry density of 1.85 g/cm3, the water contents of 10.47%, 13.63%, 14.5% and 16.02%, and the confining pressures of 50, 100 and 200 kPa; (2) nine resilience modulus tests under cyclic loading and unloading conditions with the dry densities of 1.70, 1.80, 1.85 g/cm3, the water contents of 10.47%, 13.63% and 16.02 %, the confining pressures and the deviatoric stresses of 100 and 200 kPa. The 6-level stress loading and unloading method is adopted, and each sample is subjected to 2 loading and unloading cycles under undrained and unvented shearing. The results show that the optimum water content is the critical value at the turning point of internal friction angle, cohesion and strength of soil. The strength of the dilatancy greatly relates with the confining pressure and the water content. With the increase of the confining pressure and the water content, the dilatancy gradually decreases. With the progress of shearing, the pore water pressure and pore gas pressure both increase first and then decrease, and with the occurrence of shear dilatation. The curves of the pore gas pressure and the pore water pressure are gradually separated, and the matrix suction increases. Under the same water content, the greater the net confining pressure, the greater the pore gas pressure and the pore water pressure. Through the data analysis, the multivariate nonlinear function expression for the water content, the compaction degree and the resilience modulus is established. The significance of the influences of the water content and the compaction degree on the resilience modulus is analyzed. The influences of the water content on the resilience modulus much greater than those of the compaction degree. The research results may provide a useful reference for the design and construction of the related highways.

     

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