岩石力学与工程学报
巖石力學與工程學報
암석역학여공정학보
CHINESE JOURNAL OF ROCK MECHANICS AND ENGINEERING
2009年
z2期
3739-3745
,共7页
刘珣%冯晓腊%程芸%周承豪%谭炜
劉珣%馮曉臘%程蕓%週承豪%譚煒
류순%풍효석%정예%주승호%담위
土力学%基坑%超固结土%"m"法
土力學%基坑%超固結土%"m"法
토역학%기갱%초고결토%"m"법
soil mechanics%foundation pit%overconsolidation soil%"m" method
由于基坑开挖卸载,墙前被动区土体由正常固结状态转化为超固结状态,其固结不排水剪(CU)指标将发生变化,因此弹性地基梁计算理论应予以修正.根据超固结比(OCR)与不排水强度、上覆土压力间关系,引入不排水强度与固结不排水剪(CU)指标间关系,逐步推导出多土层条件下超固结土CU指标的求解函数,将其应用于弹性地基梁"m"法计算理论,提出一种新的考虑分步开挖卸载后被动区黏性土超固结作用影响的m值修正计算法.武汉长江隧道工程有限元算例结果显示,随着超固结比增大,开挖面一定深度下各黏性土层CU指标、m值均有不同程度提高,其中粉土提高幅度尤为大,按该修正法计算出的支护体位移较未修正前更接近实测结果.
由于基坑開挖卸載,牆前被動區土體由正常固結狀態轉化為超固結狀態,其固結不排水剪(CU)指標將髮生變化,因此彈性地基樑計算理論應予以脩正.根據超固結比(OCR)與不排水彊度、上覆土壓力間關繫,引入不排水彊度與固結不排水剪(CU)指標間關繫,逐步推導齣多土層條件下超固結土CU指標的求解函數,將其應用于彈性地基樑"m"法計算理論,提齣一種新的攷慮分步開挖卸載後被動區黏性土超固結作用影響的m值脩正計算法.武漢長江隧道工程有限元算例結果顯示,隨著超固結比增大,開挖麵一定深度下各黏性土層CU指標、m值均有不同程度提高,其中粉土提高幅度尤為大,按該脩正法計算齣的支護體位移較未脩正前更接近實測結果.
유우기갱개알사재,장전피동구토체유정상고결상태전화위초고결상태,기고결불배수전(CU)지표장발생변화,인차탄성지기량계산이론응여이수정.근거초고결비(OCR)여불배수강도、상복토압력간관계,인입불배수강도여고결불배수전(CU)지표간관계,축보추도출다토층조건하초고결토CU지표적구해함수,장기응용우탄성지기량"m"법계산이론,제출일충신적고필분보개알사재후피동구점성토초고결작용영향적m치수정계산법.무한장강수도공정유한원산례결과현시,수착초고결비증대,개알면일정심도하각점성토층CU지표、m치균유불동정도제고,기중분토제고폭도우위대,안해수정법계산출적지호체위이교미수정전경접근실측결과.
As a result of excavation and unloading of foundation pit,the state of passive zone soil body in front of diaphragm wall was transformed from the normal consolidation to the overconsolidation. At the same time,the indexes of consolidated undrained triaxial shear test(CU) of cohesive soil will be changed,therefore,the calculational theory of elastic foundation beam could be modified. Based on the relationship among over- consolidation ratio(OCR),undrained shear strength and overburden pressure,the relationship between undrained shear strength and CU indexes was introduced and a function used to solve the CU indexes of overconsolidated soil in condition of several layers was derived gradually. Then the function was applied to the "m" method calculation theory of elastic foundation beam. A new modified m value calculational method was set up which considers the effect of the overconsolidated cohesive soil in the passive zone after excavation and unloading step by step. The result of finite element calculation of Wuhan Yangtze River tunnel indicates that CU indexes and m value of each cohesive soil layer in a certain depth below the excavated surface both increase in different degrees with increasing of OCR value. In particular,the indexes and value in silt increase greatly. In addition,the displacement of diaphragm wall calculated by the new modified method was close to the actual measurement results.