延安地区压实马兰黄土高压固结变形特性
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摘要
针对典型的Y型狭长沟谷型地貌中的黄土高填方工程做了大量的室内一维高压固结试验。试验结果表明,Gunary模型可较好地表征侧限压缩情况下压实马兰黄土的垂直压应力与垂直压应变的关系,其适用性优于既有且常用的双曲线模型及幂函数形式;基于Guanary模型,利用割线模量法构建的压实马兰黄土地基变形修正公式,可修正考虑上覆荷载变化、含水率变化及压实度变化的地基变形量;割线模量E_(soi)与含水率的倒数1/w符合二次多项式的关系形式,目前普遍使用的割线模量E_(soi)与压实度K的线性关系形式不符合实际情况。研究成果对沟谷型黄土高填方工程填筑方案的设计与施工具有重大的参考价值。
To investigate the deformation behavior of loess in the typical "Y" shape long and narrow gully landforms, a series of one-dimensional consolidation tests are carried out indoor under high-pressure conditions. Test results show that the Gunary Model is better than the hyperbolic model or the exponential function to represent the relation between vertical compressive stress and vertical compressive strain of compacted Malan loess. Using secant modulus, the modified formulas of deformation of foundation with compacted Malan loess are constructed to calculate the deformation considering the variation of loading, water content and compactness. The relation of secant modulus E_(soi) and the reciprocal of water content 1/w is in the form of quadratic polynomial. The widely used linear relation formula of secant modulus E_(soi) and compactness K is not consistent with the actual situation. Research results have an important reference value to the design and construction of gully type high loess-content landfill projects.
To investigate the deformation behavior of loess in the typical "Y" shape long and narrow gully landforms, a series of one-dimensional consolidation tests are carried out indoor under high-pressure conditions. Test results show that the Gunary Model is better than the hyperbolic model or the exponential function to represent the relation between vertical compressive stress and vertical compressive strain of compacted Malan loess. Using secant modulus, the modified formulas of deformation of foundation with compacted Malan loess are constructed to calculate the deformation considering the variation of loading, water content and compactness. The relation of secant modulus E_(soi) and the reciprocal of water content 1/w is in the form of quadratic polynomial. The widely used linear relation formula of secant modulus E_(soi) and compactness K is not consistent with the actual situation. Research results have an important reference value to the design and construction of gully type high loess-content landfill projects.
引文
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[17]冯望,李顺群,高凌霞.不同压力作用下重塑黄土的固结特性[J].水利与建筑工程学报,2012,10(6):5-8.FENG Wang,LI Shun-qun,GAO Ling-xia.Consolidation properties of remolded loess under different pressures[J].Journal of Water Resources and Architectural Engineering,2012,10(6):5-8.
[2]魏汝龙.直剪固快试验结果的整理和分析[J].地基处理,1999,10(4):15-18.WEI Ru-long.Solid fast direct shear test results collation and analysis[J].Foundation Treatment,1999,10(4):15-18.
[3]刘保健,张军丽.土工压缩试验成果分析方法与应用[J].中国公路学报,1999,12(1):37-41.LIU Bao-jian,ZHANG Jun-li.Application and analyzing method for soil compression test[J].China Journal of Highway and Transport,1999,12(1):37-41.
[4]陈开圣,沙爱民.压实黄土变形特性[J].岩土力学,2010,31(4):1023-1029.CHEN Kai-sheng,SHA Ai-min.Study of deformation characteristic of compacted loess[J].Rock and Soil Mechanics,2010,31(4):1023-1029.
[5]胡长明,梅源,王雪艳.吕梁地区压实马兰黄土变形与抗剪强度特性[J].工程力学,2013,30(10):108-114.HU Chang-ming,MEI Yuan,WANG Xue-yan.Deformation and shearing strength characteristic of compacted Malan loess in Lüliang region[J].Engineering Mechanics,2013,30(10):108-114.
[6]黄雪峰,孔洋,李旭东,等.压实黄土变形特性研究与应用[J].岩土力学,2014,35(增刊2):37-44.HUANG Xue-feng,KONG Yang,LI Xu-dong,et al.Study and application of deformation characteristics of compacted loess[J].Rock and Soil Mechanics,2014,35(Supp.2):37-44.
[7]杨晶,白晓红.压实黄土非线性压缩应力-应变关系在地基沉降计算中的应用[J].岩土力学,2015,36(4):1002-1008.YANG Jing,BAI Xiao-hong.Nonlinear compression stress-strain relationship of compacted loess and its application to calculation of foundation settlement[J].Rock and Soil Mechanics,2015,36(4):1002-1008.
[8]王飞,李国玉,穆彦虎,等.干湿循环条件下压实黄土变形特性试验研究[J].岩土力学,2016,37(8):2306-2312,2320.WANG Fei,LI Guo-yu,MU Yan-hu,et al.Experimental study of deformation characteristics of compacted loess subjected to drying-wetting cycle[J].Rock and Soil Mechanics,2016,37(8):2306-2312,2320.
[9]张沛然,黄雪峰,扈胜霞,等.非饱和填土侧限压缩变形特性试验研究及应用初探[J].岩土力学,2018,39(2):437-444.ZHANG Pei-ran,HUANG Xue-feng,HU Sheng-xia,et al.Experimental study and preliminary application on the confined compression deformation characteristics of unsaturated filling soils[J].Rock and Soil Mechanics,2018,39(2):437-444.
[10]袁建新,毛源.修正割线模量法与邓肯切线模量法的对比分析[J].岩土力学,1984,5(1):1-8.YUAN Jian-xin,MAO Yuan.On the comparision of the modified secant modulus method and Duncan-Chang tangent modulus method[J].Rock and Soil Mechanics,1984,5(1):1-8.
[11]丁洲祥,龚晓南,李又云,等.割线模量法在沉降计算中存在的问题及改进探讨[J].岩土工程学报,2005,27(3):313-316.DING Zhou-xiang,GONG Xiao-nan,LI You-yun,et al.Study on some problems of settlement calculation with secant modulus method and its modification[J].Chinese Journal of Geotechnical Engineering,2005,27(3):313-316.
[12]张茂花,谢永利,刘保健.基于割线模量法的黄土增湿变形本构关系研究[J].岩石力学与工程学报,2006,25(3):609-617.ZHANG Mao-hua,XIE Yong-li,LIU Bao-jian.Study on constitutive relation of loess moistening deformation based on secant-modulus method[J].Chinese Journal of Rock Mechanics and Engineering,2006,25(3):609-617.
[13]杨光华,王鹏华,乔有梁.地基非线性沉降计算的原状土割线模量法[J].土木工程学报,2007,40(5):49-52.YANG Guang-hua,WANG Peng-hua,QIAO You-liang.An undisturbed-soil secant modulus method for calculation of nonlinear settlement of soil foundations[J].China Civil Engineering Journal,2007,40(5):49-52.
[14]中华人民共和国水利部.GB/T 50123-1999土工试验方法标准[S].北京:中国计划出版社,1999.Ministry of Water Resources of the People’s Republic of China.GB/T 50123-1999 Standard for soil test method[S].Beijing:China Planning Press,1999.
[15]中华人民共和国建设部.GB 50025-2004湿陷性黄土地区建筑规范[S].北京:中国建筑工业出版社,2004.The Ministry of Construction of the People’s Republic of China.GB 50025-2004 Code for building construction in collapsible loess regions[S].Beijing:China Construction Industry Press,2004.
[16]南京水利科学研究院.JTG E40-2007公路土工试验规程[S].北京:人民交通出版社,2007.Nanjing Hydraulic Research Institute.JTG E40-2007Test methods of soils for highway engineering[S].Beijing:People’s Transportation Press,2007.
[17]冯望,李顺群,高凌霞.不同压力作用下重塑黄土的固结特性[J].水利与建筑工程学报,2012,10(6):5-8.FENG Wang,LI Shun-qun,GAO Ling-xia.Consolidation properties of remolded loess under different pressures[J].Journal of Water Resources and Architectural Engineering,2012,10(6):5-8.
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