• Journal of the Korean Geotechnical Society
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• v.23 no.3
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• pp.25-40
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• 2007

Excessive earth pressure is one of the major mechanical factors in the deformation and damage of Cut-and-Cover Tunnel lining in shallow tunnels and portals of mountain tunnels (Kim, 2000). Excessive earth pressure may be attributed to insufficient compaction and consolidation of backfill material due to self-weight, precipitation and vibration caused by traffic (Komiya et al., 2000; Taylor et al., 1984; Yoo, 1997). Even though there were a lot of tests performed to determine the earth pressure acting on the tunnel lining, unfortunately there were almost no case histories of studies performed to determine remedial measures that reduce differential settlement and excessive earth pressure. In this study the installation of geotextile mat was selected to reduce the differential settlement and excessive earth pressure acting on the cut-and-cover tunnel lining. In order to determine settlement and earth pressure reduction effect (reinforcement effect) of geotextile mat reinforcement, laboratory tunnel model tests were performed. This study was limited to the modeling of rigid circular cut-and-cover tunnel constructed at a depth of $1.0D\sim1.5D$ in loose sandy ground and subjected to a vibration frequency of 100 Hz. Model tests with varying soil cover, mat reinforcement scheme and slope roughness were performed to determine the most effective mat reinforcement scheme. Slope roughness was adjusted by attaching sandpaper #100, #400 and acetate on the cut slope surface. Mat reinforcement effect of each mat reinforcement scheme were presented by the comparison of earth pressure obtained from the unreinforced and mat reinforced model tests. Soil settlement reduction was analyzed and presented using the Picture Analysis Method (Park, 2003).

• Proceedings of the KAIS Fall Conference
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• 2009.12a
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• pp.367-369
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• 2009

해안도로에 건설되는 콘크리트 포장체는 염해의 영향을 받는다. 또한 해안도로의 기초가 되는 지반은 약 5%가 연약지반으로 이루어져 있으며, 이에 대해 적절한 처리가 이루어지지 않으면 시간이 지남에 따라 침하가 발생하여 포장체에 부정적인 영향을 끼칠 수 있다. 연약지반의 장기적 거동에 의한 부등침하로 콘크리트 포장체에 균열이 발생할 경우, 염분의 침투 및 포장체내로의 확산이 가속되어 균열을 더욱 심화시키는 역할을 하게 된다. 본 연구에서는 이와 같이 포장체와 하부지반의 상호 유기적인 관계를 규명하고 부정적 영향의 정도를 예측함으로써 해안도로의 건전성 및 공용성을 확보를 위한 근간을 제공하고자 한다.

• Proceedings of the Korean Geotechical Society Conference
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• 2010.03a
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• pp.1061-1064
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• 2010

뒷채움재료의 선정기준으로 구조물과 연이은 토공부 사이의 부등침하를 최소화하기 위해 맞물림(Interlocking)효과 및 다짐성이 우수하고 배수가 원활히 될 수 있는 입상재료인 선택층 재료를 사용하는 것으로 규정 및 설계하고 있다. 일률적으로 정해진 현재의 뒤채움재료 선정기준은 건설초기에 손쉽게 구할 수 있었던 선택층 재료인 SB-1의 공급이 어려워져 적절하게 현장여건을 고려하기 곤란하다. 공학적 측면에서 지나치게 안전측으로 선택 및 설계되는 경우가 있어 공사비의 상승 등 시공성과 경제성 측면에서 많은 문제점을 가지고 있다. 본 연구에서는 실내 모형토조를 이용하여 뒤채움 완료 후 뒤채움부 상단에서 교통하중에 의한 장기동적토압을 모사해 뒤채움부의 장기 침하량과 수직, 수평토압을 측정 비교해 교대 뒤채움부 재질 변경을 위한 기초자료로 활용하고자 한다.

• Geotechnical Engineering
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• v.28 no.4
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• pp.22-24
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• 2012

• Proceedings of the Korea Concrete Institute Conference
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• 2006.05a
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• pp.230-233
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• 2006

Conventionally, it used to be focused on simply prevention of further settlement of structures, where, much of problems were raised and sometimes the construction itself was not possible. Further, rough estimation of the ground, which is unseen, often incurred many troubles in the maintenance. D-ROG method is a high-tech technology that changes almost all of the concepts on the conventional grouting, is expanding its application scope spanning from the restoration of settled structures to ground strengthening works necessary for building enlargement and remodeling.

• Journal of the Korea institute for structural maintenance and inspection
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• v.13 no.6 s.58
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• pp.192-203
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• 2009

In the new Seoul-Busan high speed railroad construction specially in area of city center passage the roadbed establishment is recommended the staibility for the existing subway tunnel segments of Busan subway 1st and 2nd lines regarding the appearance condition, a quality condition and the durability of the objective facility, and it evaluates the numerical analysis using MIDAS/GTS which leads the stability of the objective facility and investigatesd tunnels. Fundamental issues in tunneling under high groundwater table are discussed and the effect of groundwater on tunnel excavation was examined using a 3D stress-pore pressure coupled Finite-Element Method. Based on the results the interaction mechanism between the tunnelling and groundwater is identified. In the both of 1st and 2nd Line the maximum sinkage, unequal sinkage and the lining stress from numerical analysis are within permission and the damage degree is appearing to be disregarded. But it enforces necessary Pre-grouting in order to minimize an actual tunnel face conduct and when the tunnel is excavated it is also necessary to minimize the outflow possibility.

• The Journal of Engineering Geology
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• v.30 no.2
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• pp.185-198
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• 2020

High-density rapid expansion material is a method that increases the solid volume of injection materials due to hydration and foam reactions at the same time as spraying. It is an effective method for securing ground stability, restoring subsidence, and loading during construction of structures. In this regard, through the mechanical experiments of injection materials, the stability of the foundation ground of the structure and the effect of increasing the endurance using site construction were analyzed. The results of the experiment showed that the unit weight of soil decreased by 10.5% after injection of the filling material, and the allowable support for the structure was deemed safe, and the subsidence by each section after ground improvement was determined to be safe at 2.28, 1.55 and 0.46 cm, respectively, with an acceptable subsidence of less than 5 cm. After the field test, five inclinometers were installed on the top floor of the target building to measure the displacement of the X and Y axes. As a result of the measurement, no displacement related to the phenomenon of inequality or subsidence cracks of the structure was measured for about 16 months (509 days) after construction. This can be judged to be a sufficient increase in the stability of the ground after the injection of rapid expansion.

• Magazine of the Korea Concrete Institute
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• v.14 no.5
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• pp.47-53
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• 2002

근래 지구촌의 산업화가 가속됨에 따라 대지의 활용도가 급속하게 증가하고 있으며 아울러 인구의 증가 및 개개인 삶의 공간적 범주가 점점 확대되면서 지구상에 광범위하게 분포되어 있는 연약지반으로의 관심이 집중되고 있는 실정이다. 최근 국내에서도 고속철도, 인천국제공항, 도심지 지하철 및 서ㆍ남해안 항만공사 등 대규모 국가건설공사가 진행 중에 있으며 더더욱 임해시설의 확충이라든지 인공섬 등의 건설이 활발해지면서 연약지반에 대한 관심이 고조되고 있다. 하지만 연약지반의 특성을 경시한 나머지 터널의 붕락, 주변지반 및 인접건물의 부등침하, 측방유동에 의한 구조물변위 등 대형 안전사고가 빈발하게 발생되어 왔다. 이러한 안전사고의 대책으로서 지반보강을 위한 여러 가지 신공법이 개발되었고, 새로운 터널보조공법이 국내 지하철건설현장에서 널리 쓰여지고 있으며 이러한 공법 등을 통한 성과도 적지 않게 보고되고 있다.(중략)

• Proceedings of the Korean Institute of Navigation and Port Research Conference
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• 2019.05a
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• pp.63-65
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• 2019

부산항 신항 서컨테이너터미널은 선박 대형화와 완전 무인 자동화부두 구축이라는 설계컨셉에 따라 접안 가능한 최대선박은 3만 TEU 선박으로 결정하고 그에 따라 제반 시설들의 규격을 증대하였으며, 상부 자동화 설비들의 운영에 지장이 발생하지 않도록 대형 유수실, 월파차단벽 등의 침수 방지시설과 크레인 및 AGV구간 부등침하 방지를 위해 41.5m의 광폭케이슨과 176m의 광폭 DCM기초를 적용하고, 최신 설계기준에 의거한 내진 I 등급 구조물로 계획하는 등 안전하고 이용성이 뛰어난 컨테이너 터미널이 구축되도록 하였다.

• Tunnel and Underground Space
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• v.26 no.6
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• pp.493-507
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• 2016

Scaled model tests were performed to investigate the stability of a foundation located above limestone cavities. Cavity shape was assumed to be an ellipse having 1/3 for the ratio of minor to major axis lengths. 12 different test models which have various depths, locations, inclinations, sizes and numbers of cavity were experimented and they were classified into 5 different groups. Crack initiation pressure, maximum pressure, deformation behaviors, failure modes and subsidence profiles of test models were obtained, and then the influences of those parameters on the foundation stability were investigated. No cavity model showed a general shear failure, whereas the models including various cavities showed the complicated three different failure modes which were only punching failure, both punching and shear failures, and double shear failure. The stability of foundation was found to be decreased as the cavity was located at shallower depth, the size and number of cavity were increased. Differential settlements appeared when the cavity was located under the biased part of foundation. Furthermore, subsidence profiles were found to depend on the distribution of underground cavities.