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文宝萍1,申 健1,谭建民2(1.中国地质大学(北京)水资源与环境学院,北京 100083;2.中国地质调查局宜昌地质矿产研究所,宜昌 443003):,。,,,,。,,,、,、。,,。:;;;:P642.22 :A :1000-3665(2008)03-0012-07:2008-02-15;:2008-03-04:(40472135):(1962-),,,,。E-mail:wenbp@cugb.edu.cn1 20037131,2000×104m3,5min,200m。14、10。,43,2003621~711,162.7mm,。,[1~11]。[6],,15m,110m,,。、[8],,,,。[9],。,、、,,。,、、、、。,,。,,。,,、、,,、。2 ,,400m。,。,80m。1150m,200~400m,600m。(1)。,100~110m(1、2)。·12· 20083 DOI:10.16030/j.cnki.issn.1000-3665.2008.03.0161 Fig.1 PlanoftheQianjiangpinglandslide1—;2—;3—;4—;5—;6—2.1 、、—(J1-2n)。、、5~15m,,、。20~45m,、。,,。16.05~22.57kNm3,17.58kNm3[1]。2.2 、,2~3。,()()(2)。,,135°∠32~15°,,。5~10cm,、,, 2 Fig.2 CrosssectionthroughtheQianjiangpinglandslide1—+;2—;3—;4—;5—;6—;7—22%~39%,20%~35%。。,、[1]。,。,,—,100~120m。。,、,[1,8],,,。X,,、。,[1]。·13· 20083 1。1,75%。,,,[1]。1 Table1 ShearstrengthparametersoftheQianjiangpinglandslide'sslipzonesC(kPa)φ(°)C(kPa)φ(°)72.5113.5411416.66112.820.8150033.13 ,,GEO-SLOPEJanbu,、,、,,,。[12],。S:S=(η1η2)×100%(1),η1=ΔFs×100%Fs0η2=ΔX×100%(Xmax-Xmin):η1———;η2———;ΔX———X;Xmax、Xmin———X、;Fs0———;ΔFs———ΔX。XE:E=ΔFsmax,x×100%∑ΔFsmax,x(2):ΔFsmax,x———X;Fsmin———,。3.1 1—1′,,2。3.2 ,,。,—,—,。、—,[1]。,、。,,,。8,,,。,,,。,2003621~711,162.7mm。,。95m135m。、,。、,,。,135m,,:、、0,、,。、,·14· 20083 ,135m、、、135m,72。,(、);,。,1~4,5~7。2 Table2 ScenariosdesignedforlandslidestabilityanalysisXX1X117.58~23.58kNm32X2114~72.51kPa3X316.66~13.54°4X40~16.3cm5X51500~112kPa6X633.1~20.8°7X7*0~40m *,2,。4 Fs=2.43。,、,。,。、,。4.1 (3、4、3),、、、、,。100m,。,,。,,,,。3 、Fig.3 Correlationamongthelandslide'sfactorofsafety,unitofweightofthelandslidematerials,andcohesionandinternalfrictionangleofthelandslide'smainslipzone4 、()Fig.4 Correlationamongthelandslide'sfactorofsafety,groundwaterlevelabovethelandslide'smainslipzoneandupliftwaterpressurefromthereservior'swaterlevel·15· 20083 3 Table3 Reductionofthelandslide'sfactorofsafetywithunitdecreaseofthelandslide'sparameters(kNm3)0.046(kPa)0.004(°)0.05(kPa)3×10-4(°)0.01(cm)2.9×10-4(m)0.009 ,。5。,。,,、,、,,。,,(5)。,,。,,(27.8%),(+)38.1%。(23.3%)、(+)(20.1%)、(18.3%),、(0.3%)。,,。、。,,,。,,。,,,;。5 、Fig.5 Correlationamongtheratiovariationoflandslide'sfactorsofsafetyanditsmaximumvalue,influencefactorsofthelandslide'sparameters4.2 ,1~4、5~7、。,、、,,,Fs1,2。,2.430.95。,。,、。,、·16· 20083 38.7%,、61.3%,。。、,。,,。95m135m,。,,。、。,。5 (1)。,。(2),、,。,,,、。(3)。,,。:[1] .[R].:,2007.[2] ,,,.、、[J].,2005,24(17):3146-3153.[3] ,.[J].,2005,16(3):5-11.[4] ,,,.[J].,2006(4):57-59.[5] ,,,.[J].,2004,52(9):24-26.[6] ,,.[J].,2005,26(5):668-703.[7] ,,.[J].,2006,37(7):12-20.[8] ,.[J].,2007,34(3):51-54.[9] ,,.[J].,2007,28(7):1459-1464.[10] WangFa-Wu,ZhangYe-Ming,HuoZhi-Tao,etal.TheJuly14,2003Qianjiangpinglandslide,ThreeGorgesReservoir,China[J].Landslides,2004,1(2):157-162.[11] DaiFC,DengJH,ThamLG,etal.AlargelandslideinZiguiCounty,ThreeGorgesarea[J].CanadianGeotech.J.2004,41(6):1233-1240.[12] .[M].:,2001:193-199.·17· 20083 TheinfluenceofwaterontheoccurrenceofQianjiangpinglandslideWENBao-ping1,SHENJian1,TANJian-min2(1.ChianUniversityofGeosciences(Beijing),Beijing 100083,China;2.YichangInstituteofGeologyandMineralResources,ChinaGeologicalSurvey,Yichang 443003,China)Abstract:QianjiangpinglandslidewasthefirstcatastrophiclandslideoccurredinthereservoirareaoftheThreeGorgesdamafteritsimpoundment.Followinganalyzingcharacteristicsofthelandslide,variationofitsfactorofsafety(Fs)undertheinfluenceofbothriseofreservoirwaterlevelanddurativerainfallwasinvestigatedinthispaperusingsensitiveanalysiswithaconsiderationofaserieseffectsofwateronthelandslide,suchas:weakeningofshearstrengthofthelandslide'sslipzone,increasingunitweightofthelandslidematerials,imposingaupliftwaterpressureonthelandslide,andrisinggroundwatertable.Itwasfoundamongtheseeffects,weakeningofshearstrengthofthelowersectionofthelandslide'sslipzone,whichdevelopedcrossingbeddingplanesofmudstone,hadthestrongestinfluenceonthelandslide'sstability,followedbythoseofupliftwaterpressure,weakeningofshearstrengthoftheslipzone'suppersectionalongthebeddingplaneofshale,increasingofunitweightoflandslide'smaterials,whereasrisingofgroundwatertablehadlittleinfluenceonthelandslide.ResultsofthisstudyshowedthatoccurrenceofQianjiangpinglandslidewasaconsequenceofcombinedinfluenceofimpoundmentofThreeGorges'damanddurativerainfall.However,itseemsthatinfluenceoftheformerwasmuchgreaterthatthelatter.Keywords:Qianjiangpinglandslide;riseofreservoirwaterlevel;rainfall;sensitiveanalysis:张明霞(上接第11页)AnalysisonengineeringrupturingpossibilityofthefaultF201anditseffectsontheDaliushudamsiteareaoftheYellowRiverMARun-yong,PENGJian-bing(KeyLaboratoryofEducationalMinistryofWesternGeologyResourceandGeologyEngineering,DepartmentofGeologicalEngineering,Chang'anUniversity,Xi'an 710054,China)Abstract:TheDaliushudamsiteintheHeishanxiaGorgeoftheYellowRiverislocatedinthemiddleofZhongwei-Tongxinoverthrustnappefracturezone,whichis1.5kmapartfromtheseismogenicfaultF201.Inthedamsitearea,thefracturezoneiscomposedofmanyfaults,andthefaultscanbedividedintomainfaultsandbranchfaults,whichhaveacloserelationwiththefaultF201.Theresultsofstatistici