CAJ | 학술논문

基土换填是常用的抗冻胀措施。目前非冻胀性土缺乏科学标准的定义，换填厚度基本按照经验公式和工程类比确定，不尽科学合理。在对垫层抗冻胀机制的分析基础之上，根据层状土毛管水土水势理论给出了垫层材料的选择依据，结合热阻等效原理在考虑了衬砌结构允许位移的基础上给出了渠道垫层厚度的计算公式，并根据传统算法与该方法对山东打渔张北干渠弧形坡脚梯形渠道进行抗冻胀垫层设计；同时采用ANSYS有限元软件对渠道铺设垫层前后进行热力耦合数值模拟。研究表明，垫层通过改善水分场、温度场削弱了冻胀发生的因素；该垫层算法比传统算法合理、工程造价较低。数值分析表明，渠道冻胀量、冻胀力明显被削减，其中对阴坡的削减可达90%以上。
기토환전시상용적항동창조시。목전비동창성토결핍과학표준적정의，환전후도기본안조경험공식화공정류비학정，불진과학합리。재대점층항동창궤제적분석기출지상，근거층상토모관수토수세이론급출료점층재료적선택의거，결합열조등효원리재고필료츤체결구윤허위이적기출상급출료거도점층후도적계산공식，병근거전통산법여해방법대산동타어장북간거호형파각제형거도진행항동창점층설계；동시채용ANSYS유한원연건대거도포설점층전후진행열력우합수치모의。연구표명，점층통과개선수분장、온도장삭약료동창발생적인소；해점층산법비전통산법합리、공정조개교저。수치분석표명，거도동창량、동창력명현피삭감，기중대음파적삭감가체90%이상。
Non-heaving soil is widely used as cushion material for filling the canal foundation naturally made up by frost heave soil in North China. The design of the cushion is not as appropriate since non-heaving soil has not been technically defined;and thickness of the cushion relies heavily on empirical design. Frost heaving of coarse grained soil is mainly affected by the particle size, water content and groundwater level. Initial water content of frost heaving and the ability to stop capillary water from rising should be taken into consideration when choosing the right cushion material. This paper puts forward a method for choosing cushion material according to capillary water potential in layered soil based on the analysis of frost heaving resistant mechanism of cushion. The method includes two criteria, relationships between groundwater level and effective grain size and the coefficient of nonuniformity respectively. Working conditions of the design are given by assuming the most critical water content after investigation of canal working conditions in winter. After considering the allowable displacement of lining structure, the formula for thickness of canal cushion is deduced basing on thermal resistance equivalent principle. Both traditional and the proposed methods are used in the design of trapezoidal canal with curved-toe slope of Dayuzhang North main canal in Shandong province. The calculation results by the proposed approach are the same with those by the traditional calculation method which selects minimum displacement rate, but reduced 27cm of cushion compared with the traditional method which selects maximum displacement rate. Average surface temperature and frost heaving ratios of canal were measured during freezing period. Frozen soil can be considered as negative thermal expansion materials whose negative linear expansion coefficient is the ratio of frost heaving ratios and the average temperature. Elastic moduli and Poisson's ratios of frozen soil and frozen sand in different temperatures are selected which are widely used in other literatures. Meanwhile, the finite element software ANSYS was applied to simulate thermal-mechanical coupling process before and after laying cushion. The results show that the cushion can undermine frost heaving by improving temperature field and moisture field. Numerical analysis indicates that frost heaving and frost-heave force of the lining structure are apparently reduced, up to 90%at the shady slope.