• 한국철도학회:학술대회논문집
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• 한국철도학회 2011년도 정기총회 및 추계학술대회 논문집
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• pp.2439-2449
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• 2011

Existing grade crossings between railway and roadway area gradually changed to grade separation systems by the law. In the case of new roadway construction which crosses railways, it shall be grade separation system in principle. With the railway underground crossing method, many practices have been developed which can minimize rail displacements and avoid rail release. With these methods, the effects to the train can be reduced. The underground crossing methods can be identified as open-cut methods and non open-cut methods. The open-cut methods include temporary support methods and special rail construction methods. Also the non open-cut methods includes pipe roof methods, front jacking methods, messer shield methods, NTR methods and JES methods. Among these, the most suitable method is applied considering safety, economy, class of each rail system (train passing frequency and velocity), etc. In the non open-cut methods, the cost and duration shall be increased to keep existing rail system during construction. In the open-cut methods which use plate girders, the rail speed shall be restricted due to the displacement and vibration of the girder. In this study new grade separation methods were developed. With this method, the safety during construction can be increased. This method refines temporary support methods, but pc slab girder with huge stiffness is applied instead of plate girders. With this method, the rail displacement can be reduced and higher safety can be obtained during construction. Also construction cost and duration can be minimized because the temporary work and the overburden soil depth can be reduced.

• 한국지반공학회:학술대회논문집
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• 한국지반공학회 2005년도 지반공학 공동 학술발표회
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• pp.591-600
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• 2005

There are many cross tunnelling methods such as NTR, TRCM, Messer Shield, Front Jacking, and Pipe Roof Method. The advantages of adopting RPS(roof panel shield) method in crossing tunnel construction with comparing other existing cross tunnelling method are needed a little space and easy to change the direction of cutting shoe during the construction of pipe roof. The numerical analysis of RPS was performed for the application in the crossing tunnel under railroad. The earth pressure distribution and settlement were predicted when the RPS method was applied during the excavation for crossing railroad tunnel construction.

• 화약ㆍ발파
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• 제36권4호
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• pp.48-61
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• 2018

본 사례연구는 성남시 분당구에 위치한 한국가스공사(KOGAS) 분당사옥 건물의 발파해체 프로젝트에 관한 것이다. 대상건물은 긴 경간을 갖는 보 구조물이라는 특징 때문에 프로젝트 초기에는 잭 서포트를 이용한 기계식 해체공법이 고려되었다. 하지만 과도한 보강비용과 안전상의 불확실성, 그리고 공사기간의 장기화 우려 때문에 발파해체공법을 대안공법으로 적용하였다. 폭약의 기폭순서는 붕괴과정 중에 주변의 건물 및 시설물 방호를 목적으로 정교하게 설계하였으며, 대상건물은 왼쪽 전방을 향해 붕괴되도록 유도하였다. 1층, 2층 및 5층에 위치한 발파기둥들에 설치된 폭약을 순차적으로 기폭시키는 데에는 총 550개 이상의 전자뇌관(Unitronic 600)이 사용되었다. 분진발생을 저감하기 위해 각각의 발파대상 기둥과 바닥에는 작은 물주머니와 큰 물주머니를 각각 설치하였다. 이와 같이 본 프로젝트에서는 대상건물의 발파해체 시에 발생될 것으로 예상되는 소음, 분진 및 충격진동을 경감시키기 위해 총체적인 노력을 경주하였다.