• Journal of the Korea Institute of Information and Communication Engineering
• /
• v.18 no.4
• /
• pp.920-926
• /
• 2014

In this study, we applieorithmd the inverse analysis alg to the prediction of displacement shape in the example construction and verified the feasibility of suggested algorithm. For this purpose, as information processing knowledge in the field of IT is required and the need for convergence with the major is emerged, it is intended to try to apply the algorithm to the construction sector. Prediction of displacement shape is very important since it is related to the earth pressure of slurry wall and effecting on the safety of slurry wall after anchor removal. 3 levels of inverse analysis were applied to the slurry walls in 3 sites and compared the measured displacement shape with predicted displacement shape of the last excavation construction. As the predicted displacement shape was matched well with the measured one, the applied analysis algorithm in this study can be applied to the excavation construction.

• KSCE Journal of Civil and Environmental Engineering Research
• /
• v.33 no.4
• /
• pp.1541-1549
• /
• 2013

This study investigates the response of structures to tunnelling-induced ground movements in sand ground, varying tunnel excavation condition (tunnel depth and diameter), tunnel construction condition (ground loss), ground condition (loose sand and dense sand). Four-story block-bearing structures have been used because the structueres can easily be characterized of the extent of dmages with crack size and distribution. Numerical parametric studies have been used to investigae of the response of structures to varying tunnelling conditions. Numerical analysis has been conducted using Discrete Element Method (DEM) to have real cracks when the shear and tensile stress exceed the maximum shear and tensile strength. The results of structure responses from various parametric studies have been integrated to consider tunnel excavation condition, tunnel construction condition, and ground condition and provided as a relationship chart. Using the chart, the response of structures to tunnelling can easily be evaluated in practice in sand ground.

• Journal of the Korean Geotechnical Society
• /
• v.22 no.12
• /
• pp.77-88
• /
• 2006

A series of model tests were performed to investigate the ground deformation during trench excavation for diaphragm walls. An apparatus was manufactured to observe the failure pattern of a slurry-supported trench in sandy ground. Ground deformations including settlement and lateral displacement of the surrounding ground adjacent to the trench were carefully monitored during excavation. Experimental observations indicated that the settlement of the adjacent ground increased with closing to the trench. Especially, the considerable settlement occurred at the distance which was equal to 40% of the excavation depth. And, the higher settlement was obtained when the relative density of ground was looser and the ground water table was higher. Also, the lateral wall face of excavated trench was bulged with lowering the slurry level In stages and then the upper part of trench failed finally. The envelope of ground surface settlement could be represented as a hyperbolic line and the measured settlement was smaller than those predicted by Clough and O'Rourke (1990).

• The Journal of Engineering Geology
• /
• v.19 no.3
• /
• pp.417-422
• /
• 2009

Tunnels that have recently been constructed are characterized by longer length than ever before and furthermore they frequently go through the ground area with poor conditions such as fractured zones. If ground strength is weak, plastic deformation of tunnel occurs, and occasionally a big fall may be brought about. Up to now, the construction work of tunneling has been executed as a sequential method placing the lining concrete after completion of excavation. Such a method requires a long time and much money to complete the tunnel. It is hard to ensure the stability of tunnel if tunnel is left undone for a long time after excavation in fracture zones or plastic grounds. For this reason, we tried to take simultaneous construction of tunnel excavation and lining concrete in order to not only shorten construction schedule but also stabilize the tunnel at the highly fractures zone as soon as possible. As preliminary consideration for simultaneous construction, in-situ tests are performed to calculate the isolation distance over which blasting vibration does not influence the strength of lining concrete. Improvement of ling form, placing method of concrete, ventilation using a dust collector, together with equipment arrangement, was made to assure the simultaneous construction work.

• 기계와재료
• /
• v.21 no.4
• /
• pp.96-105
• /
• 2010

도로 및 철도는 차량의 고속화와 신속한 물류의 유통을 위해 직선 및 수평화가 절실하게 요구되며, 국내 건설구간의 약 50~70%가 산악지형으로서 터널공사가 필수적으로 요구된다. 국내터널굴착은 주로 발파에 의한 NATM(New Austrian Tunneling Method)으로 공사가 이루어지고 있으나, 굴착효율이 낮으며 안전사고의 위험성이 높다. 해외에서는 급속한 시공을 위하여 TBM(Tunnel Boring Machine)의 적용 사례가 증가하고 있다. 그러나 국내에는 TBM에 대한 연구가 전무한 상태이고, TBM 터널의 설계 시공 기술과 경험이 미흡하다. 최근 대도시의 지하터널과 장대터널의 수요가 증대되어 TBM터널시공 기술과 TBM장비의 국산화가 절실하게 요구되고 있다. 본고에서는 국내외 주요 TBM 시공현황과 전망을 정리하여 TBM 터널 기술의 확보가 매우 시급함을 상기시키고자 하였다.

• 지반과기술
• /
• v.10 no.4
• /
• pp.20-31
• /
• 2013

본 터널 붕락 사례 연구를 종합적으로 분석해 볼때, 시공 공정 중에 발생 가능한 붕괴 및 붕락은 앞서와 같이 과거의 여러 사례들을 토대로 분석함으로서 예측 할 수 있지만, 시공 외적인 요인에 대해서는 사실상 조사, 설계, 시공 중의 오류에 의해 발생되는 것이기 때문에 파악하기 어렵다. 본 터널 붕락사례를 통해 원인을 분석 정리 하면 다음과 같다. (1) 불규칙한 지반구조적 원인 대부분의 터널 붕락을 일으키는 불규칙한 지반구조는 과거 지반구조의 침식 또는 대규모 지반운동 등 지반구조의 급속한 변화에 기인한 것이다. 터널 시공전에 면밀한 사전 지반조사와 선진 보오링 등으로 정확한 지반구조를 파악한다면 이로 인한 터널 붕락은 최소화 시킬수 있다. (2) 기획과 설계단계에서의 오류 충분치 못한 지반조사에 의한 설계 및 부적절한 시공자재 사용등으로 터널 붕락이 발생 될수 있다. 터널 굴착 주변 지반조건과 이러한 지반조건에 적합한 터널 굴착 및 보강공법 등이 터널 설계시 심도있게 검토되어야 할 가장 중요한 요소이다. (3) 시공 및 관리에서의 오류 경험이 부족한 터널기술자의 현장 감독과 현장에서 수집되는 각종 계측자료의 신뢰성 부족과 결과의 재적용 미흡으로 효율적인 계측 및 지반정보를 활용한 정밀 시공이 이루어지지 않는 것도 터널 붕락의 중요한 요인으로 분석되었다. (4) 현장관리 조사서의 표준화 부족 터널굴착공사중 붕락이 발생된 현장의 막장조사결과를 보면 조사자가 임의로 표시를 하여 각 터널별 막장조사결과가 매우 상이할 뿐만 아니라 각 터널별로 기재방법, 양식이 달라서 실제 원인분석에 활용하기가 어려운 것으로 분석되었다.

• Geotechnical Engineering
• /
• v.1 no.1
• /
• pp.31-46
• /
• 1985

An extensive program of tunnel instrumentation has been Implemented in the construction of the Seoul Subway Line 3 and 4, in which the NATM was adopted as the main tunnelling technique. Among more than ten instrumented sections in the downtown area, five representative test sections were selected for analysis in this study, with an emphasis on the surface settlement and crown settlement. Variations of the surface and crown settlement. Variations of the governing factors, such as ground conditions, tunnel geometry, and construction conditions are described in this paper. Possible mechanisms for ground deformations occurring at different stages of tunnel construction are formulated, based on overall interpretation of the field observations and data obtained.

• Journal of Korean Tunnelling and Underground Space Association
• /
• v.21 no.2
• /
• pp.257-266
• /
• 2019

Ground water generated under tunnel excavation has a major impact on tunnel construction and stability. Thus, effective waterproof grouting is needed to reduce the inflow of groundwater. Most tunnel designs are applying the Pre Grouting. However there are no propriety analysis for grouting material and waterproof effect. In this study, numerical analysis was performed in order to investigate the effect of waterproof with decrease of coefficient of permeability of the grouting area based on the case of grouting construction.

• Journal of Korean Society of Disaster and Security
• /
• v.10 no.1
• /
• pp.43-46
• /
• 2017

Recently, the development of underground space is being actively carried out in the urban area by saturation, and the excavation works are mainly carried out by various excavation methods by the structures adjacent to the ground and underground excavation. During such excavation work, ground subsidence accidents are occurring due to inattention construction, lack of construction technology, and leakage of ground water. For the prevention of ground subsidence we studied the method of risk influence factors by soil investigation. Analysis of 75 sites soil investigation by U.S.C.S (Unified Soil Classification System), construction method, depth of excavation and we studied the risk influence factors with ground subsidence.

• Journal of the Korean Geotechnical Society
• /
• v.15 no.4
• /
• pp.43-56
• /
• 1999

The use of berms can be an effective method to restrain excessive movements of wall and ground caused by deep excavations in urban area. But generally in construction sites, no berm remains for the sake of construction convenience or the geometry and magnitude of remaining berm is determined by individual experiences due to scarce research results. In this research, laboratory model tests and numerical analyses are used mainly for sandy soils. And efficient berms for restraining excessive movements by deep excavations are analyzed. Model tests were performed for the cases of cantilever and braced wall excavations, and the behaviors of retaining wall were analyzed according to the geometry and magnitude of berms. And also, numerical methods were used for analyzing efficient berms which are available in the soil and construction conditions in urban areas of Korea.