초록
본 연구에서는 조립질의 퇴적층이 깊게 분포되어 있고 지하연속벽과 지반앵커로 구성된 굴착현장을 선정하여 흙막이 벽계와 배면지반의 수평변위 비교, 벽체 내부에 깊이별로 설치된 토압계와 앵커 두부에 설치된 축력계로 부터의 토압과 축력의 변화등을 정밀하게 평가분석 하였다. 분석결과 강성벽계의 수평변위는 벽체 내부에 설치된 지중경사계로 측정된 결과가 보다 합리적인 것을 알 수 있었다. 그리고 단계별 굴착에 따른 토압의 변화를 분석한 결과, 굴착이 진행됨에 따라 지반앵커의 선행 긴장력으로 인해 배면 토압은 점차 증가하는 경향을 나타내고 있었으며, 지하연속벽이 강성 벽체지만 퇴적층이 깊고 굴착 깊이가 깊은 경우에는 연성벽체에서 경험적으로 평가된 경험토압과 유사한 결과가 나타남을 확인하였다.
In this study, behavior of a rigid continuous wall, earth pressure distribution with construction stage, and axial force of earth anchors were evaluated based on field monitoring data and numerical analysis results. For this purpose, a construction site excavated using the diaphragm wall was selected and full instrumentation system was introduced. From monitoring results, it was found that the values of horizontal displacement of the wall measured from the inclinometers, which were installed within the diaphragm wall were similar to analytical value. The earth pressure increased with excavation progress due to jacking force of the ground anchors installed in previous excavation stages. When the excavation depth reached 60% of the final depth, observed earth pressure distribution was similar to that estimated from Peck's apparent earth pressure distribution. When the excavation depth was around 90% of the final depth, values of observed earth pressure showed middle values between those of Peck's and Tschebotarioffs apparent earth pressures. It was also observed that, when excavation depth is deep, values of the earth pressures from the rigid wall were similar to those estimated from conventional earth pressure distribution shape proposed for flexible walls.