季节冻土区刚柔混合衬砌梯形渠道冻胀机理试验
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国家自然科学基金项目(51269029)和石河子大学高层次人才科研启动基金项目(RCZX201128)。


Test for frost heaving damage mechanism of rigid-soften composite trapezoidal canal in seasonally frozen ground region
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    摘要:

    输水渠道冻胀破坏是寒冷地区渠道破坏的主要表现。为了探明刚柔混合衬砌渠道的冻胀机理,分析复合衬砌渠道的冻胀变形规律和冻胀过程中的水分变化规律,以及柔性复合土工膜的变形特征,该研究借助季节冻融条件下刚柔混合衬砌梯形渠道的原型观测成果,分析了刚柔混合衬砌渠道的最低地温变化规律、冻深变化规律和冻胀量与冻胀力的变化规律,重点研究了冻融条件下渠基土壤的水分迁移规律,以及复合土工膜的变形特征和强度变化。结果显示:刚柔混合衬砌渠道的冻胀变形最大值位于渠底和阴坡1/3处,最大冻胀量为11.2和13.1 cm,衬砌结构向上隆起。冻结期,渠基土壤0~60 cm深度范围内含水率随深度增加而增大,>60~120 cm深度范围内的含水率随深度增大而逐渐减小。水分迁移最大值发生在渠道底部,迁移率为13.2%。经过一个冻融周期的循环,复合土工膜的强度和变形量仍然保持在90%以上,强度和变形损失值较小,可充分发挥复合土工膜防渗抗冻胀和适应变形的特性。该研究为刚柔混合衬砌渠道的设计、推广应用提供了理论依据。

    Abstract:

    In the area of seasonal frozen soil in North China and Northwest, there exists massive and serious frost-heave damage of concrete lining canal. Frost-heave damage is the main reason for the channels. In this paper, the prototype experiments were conducted in order to explore the frost-heave mechanism of rigid-soften composite canal in the irrigation area of high-cold region. The frost deformation the soil moisture variation of the trapezoidal canal lined with concrete and composite geo-membrane, and especially the rules of frost-heave deformation and the deformation features of composite geo-membrane were further systematically studied. The experiment followed the leading thought of suiting and reducing the frost-heave destruction, chose the trapezoidal canal lined with infiltrating structure and integrated rigidity materials as typical experiment segment, and collected the freeze index of various canal lining frameworks; the experiment referred to the advanced method, and adopted the new material. The experiment section of observation prototype was 50 meters long. The measuring section for ground temperature was 3 meters long, and the temperature was measured by the digital thermometer. The measuring section for freeze depth was 3 meters long, measured by the DTM-2 frozen soil apparatus. The section for frost-heave stress was 4 meters long, measured by the strain sensor. The section for frost deformation was 5 meters long, measured by the electronic level and the electronic theodolite. The section for foundation moisture was 20 meters long, and the foundation moisture was measured by the drying method. Prototype test data were obtained through the observation every day. The observation objects in the test included air temperature, ground temperature, foundation moisture, freeze depth, frost deformation and frost-heave stress. The frost-heave mechanism of trapezoidal canal lined with concrete and composite geo-membrane was studied in the prototype experiment, as well as the soil moisture movement on canal base during seasonal freezing-thawing stage. The variation law of frozen depth and frost-heave deformation was derived from soil moisture movement, freezing temperature and frost depth. Based on the observed data in the prototype experiment of the trapezoidal canal lined with concrete and composite geo-membrane under the condition of freezing-thawing cycle, the ground temperature change, the rules of frost-heave deformation and the distribution of normal and tangential frost-heave force were analyzed. The results showed that, the frost-heave amount had a maximum value of 13.1 and 11.2 cm respectively at the site of one third from the bottom on shady slope and at the bottom of trapezoidal canal, which caused lining structure of the canal to rise. During the freezing period, the soil moisture content in the depth of 0-60 cm increased with the increasing of the depth, while that in 60-120 cm decreased with increasing of the depth. The maximum value of water migration and variation was 13.2%, which occurred in the bottom of the canal. After one freeze-thaw cycle, the strength and deformation quantity of composite geo-membrane were still maintained above 90%, so it could fully utilize the features of frost-heave resistance and adaptive deformation of composite geo-membrane. The study shows that the prototype experiment of the canal can provide the reference and the scientific basis for the engineering design of the lining canal with concrete and composite geo-membrane and the mechanics computation in seasonal frost region.

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姜海波,田艳.季节冻土区刚柔混合衬砌梯形渠道冻胀机理试验[J].农业工程学报,2015,31(16):145-151. DOI:10.11975/j. issn.1002-6819.2015.16.020

Jiang Haibo, Tian Yan. Test for frost heaving damage mechanism of rigid-soften composite trapezoidal canal in seasonally frozen ground region[J]. Transactions of the Chinese Society of Agricultural Engineering (Transactions of the CSAE),2015,31(16):145-151. DOI:10.11975/j. issn.1002-6819.2015.16.020

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  • 收稿日期:2015-05-24
  • 最后修改日期:2015-07-15
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  • 在线发布日期: 2015-08-15
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