膨胀土渠坡若干关键技术问题研究
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摘要
膨胀土对工程建设存在不利影响的同时也是地质灾害的重要诱因之一,由于其危害性大,造成的工程问题突出,因此对膨胀土的研究处理成为工程和工程地质领域的全球性技术难题。南水北调中线工程是国家的重要决策,该工程线路长1432km,穿越膨胀岩土渠段累计长约340km,论文结合南水北调中线工程特性,对膨胀土分类、工程特性、渠坡破坏机理和处理措施等关键技术问题进行研究具有重要的理论意义和实际意义。论文首先对国内外膨胀土的物理力学特性、渠坡破坏机理和防治技术研究进行了系统的总结与回顾,对中线工程典型膨胀土(岩)取样进行物理力学、胀缩、渗透和大气影响等工程特性试验分析;然后针对目前膨胀土分类体系存在的不足,建立了一个新的膨胀土多指标定量分类体系,并对南水北调中线工程膨胀土进行了判别划分;针对以往膨胀土边坡稳定性分析的不足提出了考虑膨胀特性的膨胀土边坡流固耦合分析方法,对膨胀土渠坡处理措施进行了室内试验研究和现场试验研究,提出了南水北调中线工程膨胀土(岩)渠坡处理推荐方案,为中线工程的顺利建设提供了技术支撑。具体内容如下:
第二章对南水北调中线工程典型膨胀土(岩)进行取样,对其基本工程特性进行了试验研究,重点研究了原状样与重塑样的胀缩特性、渗透特性,对膨胀土(岩)的大气影响深度进行了研究。
第三章针对目前膨胀土分类体系存在的不足,引入粗糙集理论对膨胀土分类采用的多项指标进行重要性分析,建立了一个新的膨胀土多指标定量分类体系并应用。
第四章研究膨胀土(岩)渠坡破坏机理,通过大量的现场试验初步揭示了膨胀土渠坡的破坏模式,提出考虑膨胀特性的膨胀土流固耦合分析方法,运用有限元强度折减法计算渠坡安全系数,通过室内大型模型试验和现场降雨试验对该方法进行了验证。
第五章对膨胀土(岩)渠坡工程处理措施进行了试验研究,包括室内试验研究和现场试验研究两个部分,对各种处理措施的作用和应用效果进行了综合评价,提出了南水北调中线工程膨胀土(岩)渠坡处理推荐方案。
第六章为结论与展望。
The expansive soil has much effect on the project, and is also one of important causes of the geological hazard. Since it made a lot of great damage and project problems, the research and treatment of the expansive soil has become global technical problems in engineering and engineering geology. As a important decisions project of China, the South-to-North Water Diversion Middle Route Project (denotes Middle Route Project in the following) has 1432 km long, in which about 340 km long areas are expansive rock and soil slopes. Based on the engineering characteristics of South-to-North Water Diversion project, the research on several key technical problems of expansive soil Canal Slopes, such as classification, engineering characteristics, failure mechanism, treatment measures and so on, has important theoretical meaning and practical significance. In this paper, the current research situation on expansive soil's physical and mechanical characteristics, failure mechanism of canal slopes and treatment ways are summarized firstly. and gained the classification results of expansive soils in Middle Route Project. Secondly, according to the limitation of current classification approach, a new multi-indexes classification system on expansive soils has developed, Then the laboratory test and in-situ test on physical mechanical, swell-shrinking, permeability and atmospheric effects of expansive soils carried out, and fluid-solid coupling analysis method, which involved swelling behavior, and treatment measures of canal slopes of Middle Route Project construction developed. The main research contents and results include:
In chapter 2, experimental study on the typical expansive rock and soil sampling's engineering properties investigated. Atmospheric effect depth comparative analysis of expansive soil's swell-shrink characteristics and seepage properties between undisturbed sample and remodeling sample has made.
In chapter 3, based on the rough Set theory, important analysis of expansive soils classification indexes carried out, and developed a new multi-indexes classification system, according to the disadvantages of current classification methods.
In chapter 4, the failure mechanism of expansive soils canal slopes studied, and revealed the failure mode by in-situ test, developed the fluid-solid coupling analysis method, which involved swelling behavior, calculated the safety factor by strength reduction finite element method. The validity of new method is testified by large indoor model test and field test.
In chapter 5, the treatment measures of expansive soil canal slopes are studied roundly by indoor-test and field-test. The comprehensive evaluation on engineering effect of these methods has made. Finally, the treatment schemes to expansive soil canal slopes in South-to-North Water Diversion project put forward.
Conclusions and prospects are put in Chapter 6.
第二章对南水北调中线工程典型膨胀土(岩)进行取样,对其基本工程特性进行了试验研究,重点研究了原状样与重塑样的胀缩特性、渗透特性,对膨胀土(岩)的大气影响深度进行了研究。
第三章针对目前膨胀土分类体系存在的不足,引入粗糙集理论对膨胀土分类采用的多项指标进行重要性分析,建立了一个新的膨胀土多指标定量分类体系并应用。
第四章研究膨胀土(岩)渠坡破坏机理,通过大量的现场试验初步揭示了膨胀土渠坡的破坏模式,提出考虑膨胀特性的膨胀土流固耦合分析方法,运用有限元强度折减法计算渠坡安全系数,通过室内大型模型试验和现场降雨试验对该方法进行了验证。
第五章对膨胀土(岩)渠坡工程处理措施进行了试验研究,包括室内试验研究和现场试验研究两个部分,对各种处理措施的作用和应用效果进行了综合评价,提出了南水北调中线工程膨胀土(岩)渠坡处理推荐方案。
第六章为结论与展望。
The expansive soil has much effect on the project, and is also one of important causes of the geological hazard. Since it made a lot of great damage and project problems, the research and treatment of the expansive soil has become global technical problems in engineering and engineering geology. As a important decisions project of China, the South-to-North Water Diversion Middle Route Project (denotes Middle Route Project in the following) has 1432 km long, in which about 340 km long areas are expansive rock and soil slopes. Based on the engineering characteristics of South-to-North Water Diversion project, the research on several key technical problems of expansive soil Canal Slopes, such as classification, engineering characteristics, failure mechanism, treatment measures and so on, has important theoretical meaning and practical significance. In this paper, the current research situation on expansive soil's physical and mechanical characteristics, failure mechanism of canal slopes and treatment ways are summarized firstly. and gained the classification results of expansive soils in Middle Route Project. Secondly, according to the limitation of current classification approach, a new multi-indexes classification system on expansive soils has developed, Then the laboratory test and in-situ test on physical mechanical, swell-shrinking, permeability and atmospheric effects of expansive soils carried out, and fluid-solid coupling analysis method, which involved swelling behavior, and treatment measures of canal slopes of Middle Route Project construction developed. The main research contents and results include:
In chapter 2, experimental study on the typical expansive rock and soil sampling's engineering properties investigated. Atmospheric effect depth comparative analysis of expansive soil's swell-shrink characteristics and seepage properties between undisturbed sample and remodeling sample has made.
In chapter 3, based on the rough Set theory, important analysis of expansive soils classification indexes carried out, and developed a new multi-indexes classification system, according to the disadvantages of current classification methods.
In chapter 4, the failure mechanism of expansive soils canal slopes studied, and revealed the failure mode by in-situ test, developed the fluid-solid coupling analysis method, which involved swelling behavior, calculated the safety factor by strength reduction finite element method. The validity of new method is testified by large indoor model test and field test.
In chapter 5, the treatment measures of expansive soil canal slopes are studied roundly by indoor-test and field-test. The comprehensive evaluation on engineering effect of these methods has made. Finally, the treatment schemes to expansive soil canal slopes in South-to-North Water Diversion project put forward.
Conclusions and prospects are put in Chapter 6.
引文
[1]刘特洪.工程建设中的膨胀土问题[M].中国建筑工业出版社,1997
[2]Holtz W G, Gibba H J. Engineering properties of expansive clays[J]. proceedings, ASCE,1954,80
[3]弗雷德隆德D G,拉哈尔佐H.合著。陈仲颐等译.非饱和土力学[M].中国建筑工业出版社,1997
[4]岩土工程勘察规范(GB50021-2001).
[5]膨胀土地区建筑技术规范(GBJ112-87).
[6]孔令伟,郭爱国,赵颖文,陈善雄.荆门膨胀土的水稳定性及其力学效应[J].岩土工程学报,2004,26(6):727-732.
[7]郭昱葵,熊友山,姚海林,等.模糊数学在当宜高速公路膨胀土判别和分类中的应用[J].岩土力学,1999,20(3):61-65
[8]杜延军.基于人工神经网络的膨胀土判别分类方法:以宁连一级公路为例[J].高校地质学报,1997,3(2):222-225.
[9]冯玉国.用物元分析法判别膨胀土胀缩等级[J].勘察科学技术,1996,(4):28-31.
[10]陈新民,李生林.膨胀土判别与分类的灰关联分析法[J].岩土力学,1996,17(14):30-34.
[11]易顺民,晏同珍.膨胀土判别与分类的人工神经网络方法[J].地质科技情报,1995,14(3):91-94.
[12]陈爱军,杨和平.神经网络在公路膨胀土胀缩等级判别中的应用[J].长沙交通学院学报,2003,19(2):21-25.
[13]Williams A A B,Donaldson GBuilding on expansive soils in South Africa[A].Proceedings of 4th International Conference on Expansive Soils[C].Denver,Colorado. ASCE,1980,2:834-838.
[14]谭罗荣,张梅英,邵梧敏,等.风干含水量W65用作膨胀土判别分类指标的可行性研究[J].工程地质学报,1994,2(1):15-26.
[15]公路路基设计规范(JTGD30-2004)
[16]姚海林,杨洋,程平,等.膨胀土壤标准吸湿含水率及其试验方法[J].岩土力学,2004,25(6):856-859.
[17]铁路工程特殊岩土勘察规程(TB10035-2002)
[18]陈剑平,范建华,刘迪.RQD应用与研究的回顾与展望[J].岩土力学,2005,26(s):249-252.
[19]卢再华等.原状膨胀土的强度变形特征及其本构特征研究[J].岩土力学,2001,22(3):339-342.
[20]耿建彬.膨胀土地区地裂的形成发育及其危害防治[J].岩土工程技术,1998(1):21-23.
[21]孔令伟,郭爱国,赵颖文,陈善雄.荆门膨胀土的水稳定性及其力学效应[J].岩土工程学报,2004,26(6):727-732.
[22]沈珠江,邓刚.粘土干湿循环中裂缝演变过程的数值模拟[J].岩土力学(增),2004,25(S2):1-7
[23]陈建斌.大气作用下膨胀土边坡的响应试验与灾变机理研究[D博士学位论文].武汉:中国科学院武汉岩土力学研究所,2006.
[24]冯光愈.伊利和蒙脱土及其混合试样的抗剪强度[A].土的抗剪强度与本构关系学术讨论会论文汇编[C].老河口市,1985,5.
[25]谭罗荣,孔令伟.膨胀土的强度特性研究[J].岩土力学,2005,26(7):1009-1013.
[26]罗冲,殷坤龙,周春梅,姚林林.膨胀土在不同约束状态下的试验研究[J].岩土力学,2007,(3):635-638.
[27]徐永福,龚友平,殷宗泽.宁夏膨胀土膨胀变形特征的试验研究[J].水利学报,1997,(9):27-30
[28]黄龄熙,方向.膨胀土三向变形的特性[A].中国土木工程学会土力学及基础工程学会主编:非饱和土理论与实 践学术研讨会文集[C],北京,1992:153-161
[29]刘祖德,王园.膨胀土浸水三向变形研究[J].武汉水利电力大学学报,1994,27(6):617-622.
[30]谢云,陈正汉,孙树国,李刚,方祥位.重塑膨胀土的三向膨胀力试验研究[J].岩土力学,2007,(8):1636-1642.
[31]刘松玉,季鹏,方磊.击实膨胀土的循环膨胀特性研究[J].岩土工程学报,1999,21(1):9-13.
[32]李生林.中国膨胀土工程地质研究[M].南京:江苏科学技术出版社,1992
[33]施斌.粘性土微观结构的定量技术与微观力学模型[D博士学位论文].南京大学,1995
[34]Kong L.W,Tan L.R.A Simple Method of Determining the Soil-Water Characteristic Curve Indirectly,Unsaturated Soils For Asia,Singapore,2000:341-345
[35]Fredlund M.D,Wilson G.W,Fredlund D.GUse of the grain-size distribution for estimation of the soil-water characteristic curve[J].Canadian Geotechnical Journal.2002.39:1103-1117.
[36]Simms P.H,Yanful E.K.Predicting soil-water characteristic curve of compactedplastic soils from measured pore-size distributions[J].Geotechnique,2002,4:269-278
[37]Aubertin M,Mbonimpa M,Bussiere B,Chapuis R.P.A model to predict the water retention curve from basic geotechnical properties[J].Canadian Geotechnical Journal. 2003.40:1104-1122.
[38]龚壁卫,吴宏伟,王斌.应力状态对膨胀土SWCC的影响研究[J].岩土力学,2004,(12).
[39]Bishop A.W,Donald I.B.The experimental study of partly saturated soils in the triaxial apparatus.Pro.5th ICOSMFE,1961,Vol.1:13-20
[40]Coleman J.D.Stress strain relation for partly saturated soils[J].Geotechnique,1961,12(4):348-350
[41]Fredlund D.G,Morgenstern N.R.Stress state variables for unsaturated soils[J]. Geotech.Eng.Div.Am.,Soc.Civ.Engis.1977,103,Gt5:447-446
[42]Alonso E E.Modeling the mechanical behaviour of expansive clays[J].Engineering Geology,1999,54:173-183.
[43]Yang D.Q,Shen Z.J.On strength and deformation for unsaturated compacted clay[J].Proc of the 7th,Int conf on Expansive soils Dallas,3-5 August,1992,196-200
[44]Chen Z.H,Zhou H.Q,Fredlund D.GAn nonlinear model for unsaturated soils. Proc.2nd Int.Conf.on Unsaturated soil,1998,Beijng.
[45]徐永福.膨胀土弹塑性本构理论的初步研究[J].河海大学学报(自然科学版),1997,25(4):97-99
[46]卢再华,陈正汉等.原状膨胀土的强度变形特性及其本构模型研究[J].岩土力学,2001,22(3):339-342.
[47]卢再华,王权民等.非饱和膨胀土本构模型的试验研究及分析[J].地下空间,2001,21(5):379-385
[48]Bishop A.W.Alpan I,Blight GE.Factors Controlling the Shear Strength of Partly Saturated Cohesive Soils.In:ASCE Research Conference on the Shear Strength of Cohesive Soils.pp:1960,503-532
[49]FREDLUND D G,RAHARDJO H.Soil Mechanics For Unsaturated Soils[M].New York:John Wiley&Sons,1993
[50]卢肇钧,吴肖茗.膨胀力在非饱和土强度理论中的作用[J].岩土工程学报,1997,19(5):20-27.
[51]沈珠江.当前非饱和土力学研究的若干问题[A].区域性土的岩土工程问题学术讨论会论文集[C].南京:原子能出版社,1996.
[52]Orencio Monje Vilar.A simplified procedure to estimate the shear strength envelope of unsaturated soils[J].Candian Geotechnical Journal.2006,43:1088-1095
[53]S.K.Vanapalli,D.G.Fredlund.Empirical procedures to predict the shear strength of unsaturated soils.Proceedings of the 11th Asian Regional Conference,Seoul,Korea.1999,93-96
[54]徐永福,傅德明.非饱和土结构强度的研究[J].工程力学,1999,16(4):73-77
[55]徐永福,傅德明.非饱和土结构强度的研究[J].工程力学,1999,16(4):73-77
[56]廖世文.安康膨胀土抗剪强度初步探讨[J].铁道部第二勘测设计院科技简讯,1979,1.
[57]杨和平,肖夺.干湿循环效应对膨胀土抗剪强度的影响[J].长沙理工大学学报(自然科学版),2005,2(2):1-5
[58]李妥德.裂隙软土堑坡的设计方法[J].岩土工程学报,1990,12(2):47-56
[59]韩华强,陈生水.膨胀土的强度和变形特性研究[J].岩土工程学报,2004,26(3):422-424.
[60]缪林昌,刘松玉.南阳膨胀土的水分特征和强度特性研究[J].水利学报,2002(7):87-92.
[61]龚壁卫,周小文,周武华.干一湿循环过程中吸力与强度关系研究[J].岩土工程学报,2006,28(2):207-209
[62]卢再华,陈正汉,蒲毅彬.膨胀土干湿循环胀缩裂隙演化的CT试验研究[J].岩土力学,2002,(4)
[63]Neuman,S.P.:Galerkin Approach to Saturated-Unsaturated Flow in Porous Media. Finite Element in Fluids[M].Vol.1.Viscous Flow and Hydrodynamical.London:Wiley,1974:201-217
[64]姚海林,郑少河,陈守义.考虑裂隙及雨水入渗影响的膨胀土边坡稳定性分析[J].岩土工程学报,2001(5):606-609
[65]姚海林,郑少河,李文斌,陈守义.降雨入渗对非饱和膨胀土边坡稳定性影响的参数研究[J].岩石力学与工程学报,2002(7):1034-1039
[66]张华.非饱和渗流研究及其在工程中的应用[D博士学位论文].武汉:中国科学院武汉岩土力学研究所,2002
[67]袁俊平,殷宗泽.考虑裂隙非饱和膨胀土边坡入渗模型与数值模拟[J].岩土力学,2004(10):1581-1586
[68]陈铁林等.裂隙对非饱和土边坡稳定性的影响[J].岩土工程学报,2006(2):1-6.
[69]刘军,龚壁卫,徐丽珊,侯雪梅.膨胀岩土的快速防护材料研究[J].长江科学院院报,2009,26(11):72-74
[70]陈强,韩军,刘自楷,李尚松.武汉绕城高速公路生态防护膨胀土边坡失稳的几种形式与加固处理[J].岩石力学与工程学报,2006,25(增2):4040-4045
[71]袁从华,周健,杨明亮.高速公路膨胀土边坡整治[J].岩石力学与工程学报,2007,26(增1):3073-3077
[72]吴顺川,潘旦光.膨胀土边坡自平衡预应力锚固方法研究[J].岩土工程学报,2008,30(4):492-497
[73]吴礼舟,黄润秋.锚杆框架梁加固膨胀土边坡的数值模拟及优化[J].岩土力学,2006,27(4):605-608.
[74]邹维列,王钊,陈春红.玻璃钢螺旋锚用于稳定膨胀土渠坡的现场拉拨试验和锚筋的破坏形式[J].岩土工程学报,2009,31(6):970-974.
[75]丁万涛,谭新.加筋膨胀土的三轴试验研究[J].岩石力学与工程学报,2003,22(增1):2367-2370
[76]徐晗,汪明元,黄斌,杨洪.土工格栅加筋膨胀土渠坡数值模拟研究[J].岩土力学,2007,28(增):599-603
[77]汪明元,包承纲,丁金华,蔡剑韬.试验条件对土工格栅与膨胀土界面拉拨性状的影响[J].岩土力学,2008,29(增):442-448.
[78]汪明元,龚晓南,包承纲,施戈亮.土工格栅与压实膨胀土界面的拉拨性状 [J].工程力学,2009,26(11):145-151.
[79]陈善雄,孔令伟,郭爱国.膨胀土工程特性及其石灰改性试验研究[J].岩土力学,2002,23(增):9-12.
[80]虞海珍,李小青,姚建伟.膨胀土化学改良试验研究分析[J].岩土力学,2006,27(11):1941-1944.
[81]冯美果,陈善雄,余颂,马佳.粉煤灰改性膨胀土水稳定性试验研究[J].岩土力学,2007,28(9):1889-1893.
[82]程钰,石名磊,周正明.消石灰对膨胀土团粒化作用的研究[J].岩土力学,2008,29(8):2209-2214.
[83]李志清,胡瑞林,王立朝,王艳萍,谢芳.阳离子改性剂改良膨胀土试验研究[J].岩土工程学报,2009,31(7):1094-1098.
[84]刘清秉,项伟,张伟峰,崔德山.离子土壤固化剂改性膨胀土的试验研究 [J].岩土力学,2009,30(8):2286-2290.
[85]Pawlak Z.Rough sets[J].International Journal of Information and Computer Science,1982:(11):341—356.
[86]Pawlak Z.Rough sets approach to Knowledge-based decision support[J].European Journal of Operation Research,1997,(99):48—57.
[87]韩祯祥,张琦,文福拴.粗糙集理论及其应用综述[J].控制理论与应用,1999,16(2):17-20.
[88]周庆敏,李永生,殷晨波.粗糙集的知识获取及其应用[J].苏州科技学院学报,2003,20(4):9-13.
[89]张文修,吴伟志,梁吉业,等.粗糙集理论与方法[M].北京:科技出版社,2001.
[90]余颂,陈善雄,余飞,许锡昌.膨胀土判别与分类的Fisher判别分析方法[J].岩土力学,2007,28(3):499-504.
[91]陈善雄,余颂,孔令伟,郭爱国,刘观仕.膨胀土判别与分类方法探讨[J].岩土力学,2005,26(12):1895-1900.
[92]南水北调中线工程膨胀土(岩)渠道处理技术研究阶段成果报告,2009,12
[93]谭罗荣.某些膨胀土的基本性质研究[J].岩土工程学报,1987,9(5):31-41.
[94]欧孝夺,吴恒,周东.广西红粘土和膨胀土热力学特性的比较研究[J].岩土力学,2005,26(7):1068-1072.
[95]李培勇,杨庆,栾茂田,汪东林.非饱和膨胀土裂隙开展深度影响因素研究[J].岩石力学与工程学报,2008,27(增1):2967-2972.
[96]缪林昌,仲晓晨,殷宗泽.膨胀土的强度与含水量的关系[J].岩土力学,1999,20(2):71-75.
[97]谢云,陈正汉,李刚.温度对非饱和膨胀土抗剪强度和变形特性的影响[J].岩土工程学报,2005,27(9):1082-1085.
[98]詹良通,吴宏伟.吸力对非饱和膨胀土抗剪强度及剪胀特性的影响[J].岩土工程学报,2007,29(1):82-87.
[99]慕现杰,张小平.干湿循环条件下膨胀土力学性能试验研究[J].岩土力学,2008,28(增):580-582.
[100]李雄威,孔令伟,郭爱国,张勇.考虑水化状态影响的膨胀土强度特性[J].岩土力学,2008,29(12):3193-3198.
[101]姚海林,郑少河,陈守义.考虑裂隙及雨水入渗影响的膨胀土边坡稳定性分析[J].岩土工程学报,2001,23(5):606-609.
[102]袁俊平,殷宗泽.考虑裂隙非饱和膨胀土边坡入渗模型与数值分析[J].岩土力学,2004,25(10):1581-1586.
[103]郑少河,姚海林,葛修润.裂隙性膨胀土饱和-非饱和渗流分析[J].岩土力学,2007,28(增):281-285.
[104]姚志华,陈正汉.重塑膨胀土干湿过程中细微结构变化试验研究[J].地下空间与工程学报,2009,5(3):429-434.
[105]姚志华,陈正汉.膨胀土增湿与干燥过程中的细微结构变化研究[J].水利与建筑工程学报,2009,7(3):1-4.
[106]吴琚华,袁俊平,卢廷浩.非饱和膨胀土边坡的稳定性分析[J].岩土力学,2008,29(增):363-367.
[107]姚海林,郑少河,李文斌,陈守义.降雨入渗对非饱和膨胀土边坡稳定性影响的参数研究[J].岩石力学与工程学报,2002,21(7):1034-1039.
[108]卫军,谢海洋,李小对,刘远征,冯永奇,张劲松.膨胀土边坡的稳定性分析[J].岩石力学与工程学报,2004,23(17):2865-2869.
[109]韦立德,杨春和,徐卫亚.考虑饱和-非饱和渗流场和应力场耦合的三维强度折减有限元程序研制[J].水文地质与工程地质,2006,33(3):16-20.
[110]Van Genuchren M.Aclosed-form equation for predicting the hydraulic conductivity of unsaturated soil[J]. Soil Science Society of America Journal,1980,44(5):892—898.
[111]Lioret A,Alonso E E,Consolidation of unsaturated soils including swelling and collapse behavior[J]. Geotechnique,1980,30(4):449—77.
[112]张在明.非饱和土的特性[A].非饱和土理论与实践学术研讨会文集[C].北京:中国土木工程学会土力学及基础工程学会,1992.
[113]姚海林,许人平,吴少锋,等.膨胀土水力特性试验研究[J].岩石力学与工程学报,2001,(增1):989-992.
[114]Cho S E,Lee S R.Instability of unsaturated soil slopes due to infiltration[J]. Computers and Geotechnics,2001,28(3):185-208.
[115]缪协兴,杨成永.膨胀岩中的湿度应力场理论[J].岩土力学,1993,(4):49-55
[116]李康全,周志刚.基于湿度应力场理论的膨胀土增湿变形分析[J].长沙理工大学学报(自然科学版),2005,2(4):1-6.
[117]孙伟,龚晓南.土坡稳定分析强度折减有限元法[J].科技通报,2003,19(4):319-322.
[118]赵尚毅,郑颖人,邓卫东.用有限元强度折减法进行节理岩质边坡稳定性分析[J].岩石力学与工程学报,2003,22(2):254-260
[119]徐晗,饶锡保,汪明元.降雨条件下膨胀岩边坡失稳数值模拟研究[J].长江科学院院报,2009,26(11):52-57
[120]Mein R QLarson C L.Modelling infiltration during a steady rain[J].Water Resource Research,1973,9(2):384-393.
[2]Holtz W G, Gibba H J. Engineering properties of expansive clays[J]. proceedings, ASCE,1954,80
[3]弗雷德隆德D G,拉哈尔佐H.合著。陈仲颐等译.非饱和土力学[M].中国建筑工业出版社,1997
[4]岩土工程勘察规范(GB50021-2001).
[5]膨胀土地区建筑技术规范(GBJ112-87).
[6]孔令伟,郭爱国,赵颖文,陈善雄.荆门膨胀土的水稳定性及其力学效应[J].岩土工程学报,2004,26(6):727-732.
[7]郭昱葵,熊友山,姚海林,等.模糊数学在当宜高速公路膨胀土判别和分类中的应用[J].岩土力学,1999,20(3):61-65
[8]杜延军.基于人工神经网络的膨胀土判别分类方法:以宁连一级公路为例[J].高校地质学报,1997,3(2):222-225.
[9]冯玉国.用物元分析法判别膨胀土胀缩等级[J].勘察科学技术,1996,(4):28-31.
[10]陈新民,李生林.膨胀土判别与分类的灰关联分析法[J].岩土力学,1996,17(14):30-34.
[11]易顺民,晏同珍.膨胀土判别与分类的人工神经网络方法[J].地质科技情报,1995,14(3):91-94.
[12]陈爱军,杨和平.神经网络在公路膨胀土胀缩等级判别中的应用[J].长沙交通学院学报,2003,19(2):21-25.
[13]Williams A A B,Donaldson GBuilding on expansive soils in South Africa[A].Proceedings of 4th International Conference on Expansive Soils[C].Denver,Colorado. ASCE,1980,2:834-838.
[14]谭罗荣,张梅英,邵梧敏,等.风干含水量W65用作膨胀土判别分类指标的可行性研究[J].工程地质学报,1994,2(1):15-26.
[15]公路路基设计规范(JTGD30-2004)
[16]姚海林,杨洋,程平,等.膨胀土壤标准吸湿含水率及其试验方法[J].岩土力学,2004,25(6):856-859.
[17]铁路工程特殊岩土勘察规程(TB10035-2002)
[18]陈剑平,范建华,刘迪.RQD应用与研究的回顾与展望[J].岩土力学,2005,26(s):249-252.
[19]卢再华等.原状膨胀土的强度变形特征及其本构特征研究[J].岩土力学,2001,22(3):339-342.
[20]耿建彬.膨胀土地区地裂的形成发育及其危害防治[J].岩土工程技术,1998(1):21-23.
[21]孔令伟,郭爱国,赵颖文,陈善雄.荆门膨胀土的水稳定性及其力学效应[J].岩土工程学报,2004,26(6):727-732.
[22]沈珠江,邓刚.粘土干湿循环中裂缝演变过程的数值模拟[J].岩土力学(增),2004,25(S2):1-7
[23]陈建斌.大气作用下膨胀土边坡的响应试验与灾变机理研究[D博士学位论文].武汉:中国科学院武汉岩土力学研究所,2006.
[24]冯光愈.伊利和蒙脱土及其混合试样的抗剪强度[A].土的抗剪强度与本构关系学术讨论会论文汇编[C].老河口市,1985,5.
[25]谭罗荣,孔令伟.膨胀土的强度特性研究[J].岩土力学,2005,26(7):1009-1013.
[26]罗冲,殷坤龙,周春梅,姚林林.膨胀土在不同约束状态下的试验研究[J].岩土力学,2007,(3):635-638.
[27]徐永福,龚友平,殷宗泽.宁夏膨胀土膨胀变形特征的试验研究[J].水利学报,1997,(9):27-30
[28]黄龄熙,方向.膨胀土三向变形的特性[A].中国土木工程学会土力学及基础工程学会主编:非饱和土理论与实 践学术研讨会文集[C],北京,1992:153-161
[29]刘祖德,王园.膨胀土浸水三向变形研究[J].武汉水利电力大学学报,1994,27(6):617-622.
[30]谢云,陈正汉,孙树国,李刚,方祥位.重塑膨胀土的三向膨胀力试验研究[J].岩土力学,2007,(8):1636-1642.
[31]刘松玉,季鹏,方磊.击实膨胀土的循环膨胀特性研究[J].岩土工程学报,1999,21(1):9-13.
[32]李生林.中国膨胀土工程地质研究[M].南京:江苏科学技术出版社,1992
[33]施斌.粘性土微观结构的定量技术与微观力学模型[D博士学位论文].南京大学,1995
[34]Kong L.W,Tan L.R.A Simple Method of Determining the Soil-Water Characteristic Curve Indirectly,Unsaturated Soils For Asia,Singapore,2000:341-345
[35]Fredlund M.D,Wilson G.W,Fredlund D.GUse of the grain-size distribution for estimation of the soil-water characteristic curve[J].Canadian Geotechnical Journal.2002.39:1103-1117.
[36]Simms P.H,Yanful E.K.Predicting soil-water characteristic curve of compactedplastic soils from measured pore-size distributions[J].Geotechnique,2002,4:269-278
[37]Aubertin M,Mbonimpa M,Bussiere B,Chapuis R.P.A model to predict the water retention curve from basic geotechnical properties[J].Canadian Geotechnical Journal. 2003.40:1104-1122.
[38]龚壁卫,吴宏伟,王斌.应力状态对膨胀土SWCC的影响研究[J].岩土力学,2004,(12).
[39]Bishop A.W,Donald I.B.The experimental study of partly saturated soils in the triaxial apparatus.Pro.5th ICOSMFE,1961,Vol.1:13-20
[40]Coleman J.D.Stress strain relation for partly saturated soils[J].Geotechnique,1961,12(4):348-350
[41]Fredlund D.G,Morgenstern N.R.Stress state variables for unsaturated soils[J]. Geotech.Eng.Div.Am.,Soc.Civ.Engis.1977,103,Gt5:447-446
[42]Alonso E E.Modeling the mechanical behaviour of expansive clays[J].Engineering Geology,1999,54:173-183.
[43]Yang D.Q,Shen Z.J.On strength and deformation for unsaturated compacted clay[J].Proc of the 7th,Int conf on Expansive soils Dallas,3-5 August,1992,196-200
[44]Chen Z.H,Zhou H.Q,Fredlund D.GAn nonlinear model for unsaturated soils. Proc.2nd Int.Conf.on Unsaturated soil,1998,Beijng.
[45]徐永福.膨胀土弹塑性本构理论的初步研究[J].河海大学学报(自然科学版),1997,25(4):97-99
[46]卢再华,陈正汉等.原状膨胀土的强度变形特性及其本构模型研究[J].岩土力学,2001,22(3):339-342.
[47]卢再华,王权民等.非饱和膨胀土本构模型的试验研究及分析[J].地下空间,2001,21(5):379-385
[48]Bishop A.W.Alpan I,Blight GE.Factors Controlling the Shear Strength of Partly Saturated Cohesive Soils.In:ASCE Research Conference on the Shear Strength of Cohesive Soils.pp:1960,503-532
[49]FREDLUND D G,RAHARDJO H.Soil Mechanics For Unsaturated Soils[M].New York:John Wiley&Sons,1993
[50]卢肇钧,吴肖茗.膨胀力在非饱和土强度理论中的作用[J].岩土工程学报,1997,19(5):20-27.
[51]沈珠江.当前非饱和土力学研究的若干问题[A].区域性土的岩土工程问题学术讨论会论文集[C].南京:原子能出版社,1996.
[52]Orencio Monje Vilar.A simplified procedure to estimate the shear strength envelope of unsaturated soils[J].Candian Geotechnical Journal.2006,43:1088-1095
[53]S.K.Vanapalli,D.G.Fredlund.Empirical procedures to predict the shear strength of unsaturated soils.Proceedings of the 11th Asian Regional Conference,Seoul,Korea.1999,93-96
[54]徐永福,傅德明.非饱和土结构强度的研究[J].工程力学,1999,16(4):73-77
[55]徐永福,傅德明.非饱和土结构强度的研究[J].工程力学,1999,16(4):73-77
[56]廖世文.安康膨胀土抗剪强度初步探讨[J].铁道部第二勘测设计院科技简讯,1979,1.
[57]杨和平,肖夺.干湿循环效应对膨胀土抗剪强度的影响[J].长沙理工大学学报(自然科学版),2005,2(2):1-5
[58]李妥德.裂隙软土堑坡的设计方法[J].岩土工程学报,1990,12(2):47-56
[59]韩华强,陈生水.膨胀土的强度和变形特性研究[J].岩土工程学报,2004,26(3):422-424.
[60]缪林昌,刘松玉.南阳膨胀土的水分特征和强度特性研究[J].水利学报,2002(7):87-92.
[61]龚壁卫,周小文,周武华.干一湿循环过程中吸力与强度关系研究[J].岩土工程学报,2006,28(2):207-209
[62]卢再华,陈正汉,蒲毅彬.膨胀土干湿循环胀缩裂隙演化的CT试验研究[J].岩土力学,2002,(4)
[63]Neuman,S.P.:Galerkin Approach to Saturated-Unsaturated Flow in Porous Media. Finite Element in Fluids[M].Vol.1.Viscous Flow and Hydrodynamical.London:Wiley,1974:201-217
[64]姚海林,郑少河,陈守义.考虑裂隙及雨水入渗影响的膨胀土边坡稳定性分析[J].岩土工程学报,2001(5):606-609
[65]姚海林,郑少河,李文斌,陈守义.降雨入渗对非饱和膨胀土边坡稳定性影响的参数研究[J].岩石力学与工程学报,2002(7):1034-1039
[66]张华.非饱和渗流研究及其在工程中的应用[D博士学位论文].武汉:中国科学院武汉岩土力学研究所,2002
[67]袁俊平,殷宗泽.考虑裂隙非饱和膨胀土边坡入渗模型与数值模拟[J].岩土力学,2004(10):1581-1586
[68]陈铁林等.裂隙对非饱和土边坡稳定性的影响[J].岩土工程学报,2006(2):1-6.
[69]刘军,龚壁卫,徐丽珊,侯雪梅.膨胀岩土的快速防护材料研究[J].长江科学院院报,2009,26(11):72-74
[70]陈强,韩军,刘自楷,李尚松.武汉绕城高速公路生态防护膨胀土边坡失稳的几种形式与加固处理[J].岩石力学与工程学报,2006,25(增2):4040-4045
[71]袁从华,周健,杨明亮.高速公路膨胀土边坡整治[J].岩石力学与工程学报,2007,26(增1):3073-3077
[72]吴顺川,潘旦光.膨胀土边坡自平衡预应力锚固方法研究[J].岩土工程学报,2008,30(4):492-497
[73]吴礼舟,黄润秋.锚杆框架梁加固膨胀土边坡的数值模拟及优化[J].岩土力学,2006,27(4):605-608.
[74]邹维列,王钊,陈春红.玻璃钢螺旋锚用于稳定膨胀土渠坡的现场拉拨试验和锚筋的破坏形式[J].岩土工程学报,2009,31(6):970-974.
[75]丁万涛,谭新.加筋膨胀土的三轴试验研究[J].岩石力学与工程学报,2003,22(增1):2367-2370
[76]徐晗,汪明元,黄斌,杨洪.土工格栅加筋膨胀土渠坡数值模拟研究[J].岩土力学,2007,28(增):599-603
[77]汪明元,包承纲,丁金华,蔡剑韬.试验条件对土工格栅与膨胀土界面拉拨性状的影响[J].岩土力学,2008,29(增):442-448.
[78]汪明元,龚晓南,包承纲,施戈亮.土工格栅与压实膨胀土界面的拉拨性状 [J].工程力学,2009,26(11):145-151.
[79]陈善雄,孔令伟,郭爱国.膨胀土工程特性及其石灰改性试验研究[J].岩土力学,2002,23(增):9-12.
[80]虞海珍,李小青,姚建伟.膨胀土化学改良试验研究分析[J].岩土力学,2006,27(11):1941-1944.
[81]冯美果,陈善雄,余颂,马佳.粉煤灰改性膨胀土水稳定性试验研究[J].岩土力学,2007,28(9):1889-1893.
[82]程钰,石名磊,周正明.消石灰对膨胀土团粒化作用的研究[J].岩土力学,2008,29(8):2209-2214.
[83]李志清,胡瑞林,王立朝,王艳萍,谢芳.阳离子改性剂改良膨胀土试验研究[J].岩土工程学报,2009,31(7):1094-1098.
[84]刘清秉,项伟,张伟峰,崔德山.离子土壤固化剂改性膨胀土的试验研究 [J].岩土力学,2009,30(8):2286-2290.
[85]Pawlak Z.Rough sets[J].International Journal of Information and Computer Science,1982:(11):341—356.
[86]Pawlak Z.Rough sets approach to Knowledge-based decision support[J].European Journal of Operation Research,1997,(99):48—57.
[87]韩祯祥,张琦,文福拴.粗糙集理论及其应用综述[J].控制理论与应用,1999,16(2):17-20.
[88]周庆敏,李永生,殷晨波.粗糙集的知识获取及其应用[J].苏州科技学院学报,2003,20(4):9-13.
[89]张文修,吴伟志,梁吉业,等.粗糙集理论与方法[M].北京:科技出版社,2001.
[90]余颂,陈善雄,余飞,许锡昌.膨胀土判别与分类的Fisher判别分析方法[J].岩土力学,2007,28(3):499-504.
[91]陈善雄,余颂,孔令伟,郭爱国,刘观仕.膨胀土判别与分类方法探讨[J].岩土力学,2005,26(12):1895-1900.
[92]南水北调中线工程膨胀土(岩)渠道处理技术研究阶段成果报告,2009,12
[93]谭罗荣.某些膨胀土的基本性质研究[J].岩土工程学报,1987,9(5):31-41.
[94]欧孝夺,吴恒,周东.广西红粘土和膨胀土热力学特性的比较研究[J].岩土力学,2005,26(7):1068-1072.
[95]李培勇,杨庆,栾茂田,汪东林.非饱和膨胀土裂隙开展深度影响因素研究[J].岩石力学与工程学报,2008,27(增1):2967-2972.
[96]缪林昌,仲晓晨,殷宗泽.膨胀土的强度与含水量的关系[J].岩土力学,1999,20(2):71-75.
[97]谢云,陈正汉,李刚.温度对非饱和膨胀土抗剪强度和变形特性的影响[J].岩土工程学报,2005,27(9):1082-1085.
[98]詹良通,吴宏伟.吸力对非饱和膨胀土抗剪强度及剪胀特性的影响[J].岩土工程学报,2007,29(1):82-87.
[99]慕现杰,张小平.干湿循环条件下膨胀土力学性能试验研究[J].岩土力学,2008,28(增):580-582.
[100]李雄威,孔令伟,郭爱国,张勇.考虑水化状态影响的膨胀土强度特性[J].岩土力学,2008,29(12):3193-3198.
[101]姚海林,郑少河,陈守义.考虑裂隙及雨水入渗影响的膨胀土边坡稳定性分析[J].岩土工程学报,2001,23(5):606-609.
[102]袁俊平,殷宗泽.考虑裂隙非饱和膨胀土边坡入渗模型与数值分析[J].岩土力学,2004,25(10):1581-1586.
[103]郑少河,姚海林,葛修润.裂隙性膨胀土饱和-非饱和渗流分析[J].岩土力学,2007,28(增):281-285.
[104]姚志华,陈正汉.重塑膨胀土干湿过程中细微结构变化试验研究[J].地下空间与工程学报,2009,5(3):429-434.
[105]姚志华,陈正汉.膨胀土增湿与干燥过程中的细微结构变化研究[J].水利与建筑工程学报,2009,7(3):1-4.
[106]吴琚华,袁俊平,卢廷浩.非饱和膨胀土边坡的稳定性分析[J].岩土力学,2008,29(增):363-367.
[107]姚海林,郑少河,李文斌,陈守义.降雨入渗对非饱和膨胀土边坡稳定性影响的参数研究[J].岩石力学与工程学报,2002,21(7):1034-1039.
[108]卫军,谢海洋,李小对,刘远征,冯永奇,张劲松.膨胀土边坡的稳定性分析[J].岩石力学与工程学报,2004,23(17):2865-2869.
[109]韦立德,杨春和,徐卫亚.考虑饱和-非饱和渗流场和应力场耦合的三维强度折减有限元程序研制[J].水文地质与工程地质,2006,33(3):16-20.
[110]Van Genuchren M.Aclosed-form equation for predicting the hydraulic conductivity of unsaturated soil[J]. Soil Science Society of America Journal,1980,44(5):892—898.
[111]Lioret A,Alonso E E,Consolidation of unsaturated soils including swelling and collapse behavior[J]. Geotechnique,1980,30(4):449—77.
[112]张在明.非饱和土的特性[A].非饱和土理论与实践学术研讨会文集[C].北京:中国土木工程学会土力学及基础工程学会,1992.
[113]姚海林,许人平,吴少锋,等.膨胀土水力特性试验研究[J].岩石力学与工程学报,2001,(增1):989-992.
[114]Cho S E,Lee S R.Instability of unsaturated soil slopes due to infiltration[J]. Computers and Geotechnics,2001,28(3):185-208.
[115]缪协兴,杨成永.膨胀岩中的湿度应力场理论[J].岩土力学,1993,(4):49-55
[116]李康全,周志刚.基于湿度应力场理论的膨胀土增湿变形分析[J].长沙理工大学学报(自然科学版),2005,2(4):1-6.
[117]孙伟,龚晓南.土坡稳定分析强度折减有限元法[J].科技通报,2003,19(4):319-322.
[118]赵尚毅,郑颖人,邓卫东.用有限元强度折减法进行节理岩质边坡稳定性分析[J].岩石力学与工程学报,2003,22(2):254-260
[119]徐晗,饶锡保,汪明元.降雨条件下膨胀岩边坡失稳数值模拟研究[J].长江科学院院报,2009,26(11):52-57
[120]Mein R QLarson C L.Modelling infiltration during a steady rain[J].Water Resource Research,1973,9(2):384-393.