膨胀土增湿过程中膨胀规律的试验研究

李进前; 王起才; 张戎令; 张唐瑜; 王天双; 梁柯鑫

引用本文:	李进前,王起才,张戎令,张唐瑜,王天双,梁柯鑫.膨胀土增湿过程中膨胀规律的试验研究[J].水利水运工程学报,2018,(3):86-94

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膨胀土增湿过程中膨胀规律的试验研究
李进前¹, 王起才^1,2, 张戎令^1,2,3, 张唐瑜¹, 王天双¹, 梁柯鑫¹
1.兰州交通大学土木工程学院，甘肃兰州;2.兰州交通大学道桥工程灾害防治技术国家地方联合工程实验室，甘肃兰州;3.兰州交通大学甘肃省道路桥梁与地下工程重点实验室，甘肃兰州

摘要:

为了研究膨胀土增湿过程中膨胀规律，取某高速铁路地基膨胀泥岩土样，研究其无荷膨胀率随含水率增大过程中的变化规律。试验结果表明：膨胀土无荷膨胀率随含水率变化过程分为3个阶段，分别为快速膨胀阶段、缓慢膨胀阶段和趋于稳定阶段，得到3个变化节点含水率。然后使用蒙脱石含量、阳离子交换量、自由膨胀率、液限这4个指标作为模型因子，利用主成分分析法得到能够表征膨胀土膨胀能力强弱的膨胀特性Z值。分析3个变化节点含水率与膨胀特性Z值的关系，得到3个含水率与Z值的函数关系式。在实际工程中，可以测定土样的当前含水率和4个指标值，由4个指标值得到膨胀特性Z值，由变化节点含水率与Z值的函数关系计算得到3个变化节点含水率，然后判断土体当前含水率与3个变化节点含水率的关系，就能判断土体在当前含水率下膨胀能力的强弱，这可对实际工程提供一定参考。

关键词: 膨胀土无荷膨胀率含水率增湿膨胀特性

DOI：

分类号:TU443

基金项目:教育部长江学者和创新团队滚动支持发展计划资助项目（IRT_15R29）;中国铁路总公司科技研究计划资助项目（Z2015-G001）；青年人才托举工程资助项目（2015QNRC001）

Experimental study on swelling law of expansive soil during humidification

LI Jinqian¹, WANG Qicai^1,2, ZHANG Rongling^1,2,3, ZHANG Tangyu¹, WANG Tianshuang¹, LIANG Kexin¹

1.School of Civil Engineering， Lanzhou Jiaotong University， Lanzhou;2.Road and Bridge Engineering Disaster Prevention Technology Local Joint National Engineering Laboratory， Lanzhou Jiaotong University， Lanzhou;3.Gansu Provincial Road and Bridge and Underground Engineering Laboratory， Lanzhou Jiaotong University， Lanzhou

Abstract:

In mudstone order to study the swelling law of the expansive soil during humidification process, taking the expansive mudstone soil sample from a high-speed railway foundation as an specimen, studies of the change law of non-loading expansion rate with the increase of moisture content are carried out in this paper. The experimental results indicate that the change process of the non-loading expansion rate of the expansive soil with the changes in moisture content can be divided into three stages: the rapid expansion stage, the slow expansion stage and the tend-to-be-stable stage. This study obtains the values of the moisture content in three change nodes, then utilizes the four indexes, that is, montmorillonite content, cation exchange content, free expansion rate and liquid limit, as the model factors, and further uses the main ingredient analytic method to get the Z value of the expansion characteristic, which can represent the expansion capacity of the expansive soil. This study also analyzes the correlation characteristic, which can represent the expansion capacity of the expansive soil. This study also analyzes the correlation between the moisture content of three change nodes and the Z value of the expansion characteristic, and gets the function relationships between them. In practical works, the current moisture content of the soil sample and its four indexes can be measured, then the Z value of the expansion characteristic can be obtained from the four indexes. Furthermore, the moisture content of three change nodes can be calculated through the function relationships between the moisture content of the change nodes and Z value, and finally we can assess the relationships between the current soil moisture content and the moisture content of three change nodes and judge the strength of the soil mass under the current moisture content, and provide some reference for the practical works.

Key words: expansive soil non-loading expansion rate moisture content humidification expansion characteristic