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崔凯, 赵晓铮, 朱鸣基, 谌文武, 韩文峰. 干旱区土遗址掏蚀区土盐渍劣化与风蚀损耗效应(Ⅲ):毛细过程[J]. 岩土工程学报, 2022, 44(11): 2043-2051. DOI: 10.11779/CJGE202211010
引用本文: 崔凯, 赵晓铮, 朱鸣基, 谌文武, 韩文峰. 干旱区土遗址掏蚀区土盐渍劣化与风蚀损耗效应(Ⅲ):毛细过程[J]. 岩土工程学报, 2022, 44(11): 2043-2051. DOI: 10.11779/CJGE202211010
CUI Kai, ZHAO Xiao-zheng, ZHU Ming-ji, CHEN Wen-wu, HAN Wen-feng. Effects of salinized deterioration and aeolian ullage on soils in undercutting areas of earthen ruins in arid regions (Ⅲ): capillary process[J]. Chinese Journal of Geotechnical Engineering, 2022, 44(11): 2043-2051. DOI: 10.11779/CJGE202211010
Citation: CUI Kai, ZHAO Xiao-zheng, ZHU Ming-ji, CHEN Wen-wu, HAN Wen-feng. Effects of salinized deterioration and aeolian ullage on soils in undercutting areas of earthen ruins in arid regions (Ⅲ): capillary process[J]. Chinese Journal of Geotechnical Engineering, 2022, 44(11): 2043-2051. DOI: 10.11779/CJGE202211010

干旱区土遗址掏蚀区土盐渍劣化与风蚀损耗效应(Ⅲ):毛细过程

Effects of salinized deterioration and aeolian ullage on soils in undercutting areas of earthen ruins in arid regions (Ⅲ): capillary process

  • 摘要: 毛细过程是干旱区土遗址底部掏蚀区发生盐渍劣化效应的主要途径,同时也是其发生风蚀损耗效应的重要前提。通过对3处典型的土遗址开展全年四季正常天气、降雨和降雪条件下地基和掏蚀区含水率变化的实时监测数据分析,发现降雨(雪)天气是掏蚀区毛细过程的诱发因素;并结合室内掏蚀区毛细模拟试验,表明地基土塑限值是掏蚀区发生毛细过程临界条件。依托15处干旱地区不同时代土遗址掏蚀区的取样与模拟试验结果,在充分考虑其毛细过程特征的基础上,通过引入毛细吸水率、蒸发速率等变量建立了毛细水上升最大高度理论计算模型,模型计算结果表明当误差修正系数ε=0.9时,其绝对误差均小于1 cm。研究结果为干旱区土遗址掏蚀病害的发育机理研究与防治提供了重要的理论支撑与参考。

     

    Abstract: The capillary process is the main way of salinized deterioration effect and the important premise of aeolian ullage effect in undercutting areas at the bottom of earthen ruins in arid regions. By analyzing the real-time monitoring data of changes in the moisture content in the ground and undercutting areas at three typical earthen sites under normal weather in four seasons, rainfall and snow conditions, it is found that the rainfall (snow) weather is the inducing factor for the capillary process in the undercutting areas. Combined with the laboratory capillary simulation experiment, it is shown that the plastic limit of soil is the critical condition for the capillary process in the undercutting areas. Then based on the sampling and simulation experimental results of undercutting areas of 15 earthen ruins with different ages in arid regions, a theoretical model for the maximum height of capillary water rise is established by introducing the variables such as capillary water absorption, evaporation rate, etc. The calculated results by the theoretical model show that the absolute errors are less than 1 cm when the error correction coefficient is ε=0.9. The above researches provide important theoretical support and reference for the development mechanism and prevention of diseases in undercutting areas at the bottom of earthen ruins in arid regions.

     

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