桂林工学院学报
桂林工學院學報
계림공학원학보
JOURNAL OF GUILIN INSTITUTE OF TECHNOLOGY
2009年
4期
489-492
,共4页
地下连续墙%变形监测%水平位移%沉降%变形分析
地下連續牆%變形鑑測%水平位移%沉降%變形分析
지하련속장%변형감측%수평위이%침강%변형분석
diaphragm wall%deformation monitoring%horizontal displacement%settlement%deformation analyzing
以抚州市电力大厦为例,监测其地下连续墙的水平位移和沉降监测.从水平位移监测值来看,北侧的水平位移较大,D8的位移达到预警值,D5临近预警值,为此,在1层开挖位移增加值较大处(深度为4.2 m)加大对部分观测点的观测频数,并加强北面的支护体系,增加角支撑,并在长边增加2根对撑.沉降变化曲线表明:地下连续墙墙顶在整个开挖过程中存在一个波浪式的抬升现象.除第V阶段开挖过程因开挖面积及土方量均较小、反应不明显外,伴随着每次挖土过程地下连续墙墙顶均有一次明显的抬升过程,在楼板的制作和养护期间,墙顶先下沉后逐渐趋于稳定,大底板浇筑后墙顶又逐渐下沉.
以撫州市電力大廈為例,鑑測其地下連續牆的水平位移和沉降鑑測.從水平位移鑑測值來看,北側的水平位移較大,D8的位移達到預警值,D5臨近預警值,為此,在1層開挖位移增加值較大處(深度為4.2 m)加大對部分觀測點的觀測頻數,併加彊北麵的支護體繫,增加角支撐,併在長邊增加2根對撐.沉降變化麯線錶明:地下連續牆牆頂在整箇開挖過程中存在一箇波浪式的抬升現象.除第V階段開挖過程因開挖麵積及土方量均較小、反應不明顯外,伴隨著每次挖土過程地下連續牆牆頂均有一次明顯的抬升過程,在樓闆的製作和養護期間,牆頂先下沉後逐漸趨于穩定,大底闆澆築後牆頂又逐漸下沉.
이무주시전력대하위례,감측기지하련속장적수평위이화침강감측.종수평위이감측치래간,북측적수평위이교대,D8적위이체도예경치,D5림근예경치,위차,재1층개알위이증가치교대처(심도위4.2 m)가대대부분관측점적관측빈수,병가강북면적지호체계,증가각지탱,병재장변증가2근대탱.침강변화곡선표명:지하련속장장정재정개개알과정중존재일개파랑식적태승현상.제제V계단개알과정인개알면적급토방량균교소、반응불명현외,반수착매차알토과정지하련속장장정균유일차명현적태승과정,재루판적제작화양호기간,장정선하침후축점추우은정,대저판요축후장정우축점하침.
The horizontal displacement and settlement of diaphragm walls in Fuzhou Power Mansion are monitored.The displacement of the north side is high. The displacement of No. D8 is at warning value, and No. D5 near early warning value. In order to prevent further deformation,supporting system in north side is strengthened and 2 corner braces are increased along the two longer sides. The frequency of monitoring is also increased in the place where the displacement value is higher in the 1st layer(at depth 4.2 m). The change curve of displacement shows that there is a wave-like uplifting trend in the excavation. There is obvious uplifting in excavation process except Step V because of small area and earthwork. The displacement of the top of the diaphragm is sinking at first and then be stable. When the bottom plate is casted,the top displacement of diaphragm is gradually sinking in the process of the production and floor maintenance.