• 한국지반공학회:학술대회논문집
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• 한국지반공학회 2008년도 추계 학술발표회
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• pp.1251-1258
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• 2008

The purpose of this research is to introduce the new temporary earth retaining wall system using landslide stabilizing piles. This system is a self-supported retaining wall(SSR) without installing supports such as tiebacks, struts and rakers. The SSR is a kind of gravity structures consisting of twin parallel lines of piles driven below dredge level, tied together at head of soldier piles and landslide stabilizing piles by beams. There are three types of excavation wall structures: standard method for medium retained heights(<8.0m), internal excavation method and slope excavation method for deep-excavation applications(>8.0m). In the present study, the measured data from seven different sites which the SSR was used for excavation were collected and analyzed to investigate the characteristic behavior lateral wall movements associated with urban excavations in Korea.

• 한국농공학회지
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• 제38권5호
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• pp.140-154
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• 1996

In this study, displacement, deformation, and stability according to change of cohesion and internal friction angle were investigated through elasto-plastic method, finite-element method, and in-site experiment when excavating soft ground using sheet pile. The results of the study were as follows : 1. The horizontal displacement was 5.5% of the excavation depth by the elasto-plastic method and 3.9% of the excavation depth by the on-site experiment at the final excavation depth(GL-8.Om) on the condition of double stair strut after excavating GL-6.Om. 2. Relationships between cohesion(c) and internal friction angle $({\varphi})$ when safety factor to the penetration depth was 1.2 is shown in the following equations : (a) c= -O.0086$({\varphi})$+ O.3(D=3m) and (b) c=-0.00933$({\varphi})$+0.14(D=4m). 3. The results of elasto-plastic method and the experiment show that possible excavation depth was GL-6.Om after setting single stair strut in a short period in terms of possibility of carrying out on the condition of experimental site on the contrary general reinforcement method, setting double stair strut after excavating GL-4.0m. 4. After setting the strut, distribution of the horizontal displacement had concentrated on the excavation base and possible local failure which the shear strain caused decreased by the strut reinforced. 5. After setting strut, displacement of sheet pile was decreased by half, the limit of stable excavation depth of ground was GL-8.Om, and the maximum horizontal displacement at the GL-8.Om was 1.6% of excavation depth by the elasto-plastic method, 0.7% of excavation depth by the finite-element method.

• 농업과학연구
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• 제24권2호
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• pp.226-236
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• 1997

The results obtained by elasto-plastic analysis method about the displacement, deformation and stability on the soft ground excavation using sheet pile were summarized as follows ; 1. In the case of strut 1 step, the maximum wall displacement value in the first and the second excavation was small, but it increase remarkably after the third excavation and when the excavation depth was 8m, the point of maximum wall displacement was shown 0.75H~0.8H. 2. The value of safety factor(Fs) was increased with increasing of the penetration depth of sheet pile, cohesion and internal friction angle of ground. Safety factor was mostly effected by penetration depth of sheet pile and more effected by cohesion than internal friction angle of ground. 3. Since the deformation of sheet pile of this ground from the results of analysis and measurement increased remarkabaly after 6m excavation depth, it was desirable that the point of strut installation was GL-6m. 4. Safe excavation depth on ground by analysis considered penetration depth, cohesion and internal friction was shown at the table 3.

• 디지털융복합연구
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• 제17권3호
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• pp.205-213
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• 2019

건설현장의 굴토작업과 흙막이 가시설은 서로 밀접한 관계를 가지고 있다. 협소한 공간에서 가장 효율적으로 지하구조물을 축조하고 굴토작업시 외측 배면의 토사 이완을 방지하고 지하수위를 유지하기 위한 방안으로 안전성이 확보된 흙막이 가시설 설치는 반드시 필요하다. 본 연구는 기존 지하층 굴토공사에서 흙의 유실을 방지하기 위해 설치하는 가설흙막이를 종래에는 가설벽체를 형성하고 어스앵커, 래커, 스트러트 등을 이용하여 내부 지보를 하고 굴토공사를 시행하던 방식에서, RSB공법은 기존 재래식공법의 문제점을 개선하여, 내부 지보재를 제거하고 2열 엄지말뚝과 브레이싱을 이용하여 자립으로 토압에 저항하도록 하여 지반굴착을 진행하는 공법이다. 본 연구에서는 RSB공법 현장시범적용과 계측결과를 통하여 굴착방법에 따른 흙막이 가시설의 공법 적용성, 평가결과 발생변위가 모두 계측 허용치 만족하고. 기존 재래식공법에 비해 시공성과 경제성이 향상되었다.

• Geomechanics and Engineering
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• 제31권5호
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• pp.489-503
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• 2022

A 1257-m-long irregular deep foundation pit located in the central of Nanjing, China was constructed using the combined full-width and half-width top-down method. Based on the long-term field monitoring data, this study analyzed the evolution characteristics of the vertical movement of the columns, internal force of the struts, and axial force of the structural beam and slab. The relevance of the three mentioned above and their relationship with the excavation process, structural system, and geological conditions were also investigated. The results showed that the column uplift was within the range of 0.08% to 0.22% of the excavation depth, and the embedded depth ratio of the diaphragm wall and the bottom heave affected significantly on the column uplift. The differential settlement between the column and diaphragm wall remained unchanged after the base slab was cast. The final settlement of the diaphragm wall was twice the column uplift. The internal force of the struts did not varied monotonically but was related to numerous factors such as the excavation depth, number of struts, and environmental conditions. Additionally, the dynamic force and deformation of the columns, beams, and slabs were analyzed to investigate the inherent relationship and variation patterns of the responses of different parts of the structure.

• Geomechanics and Engineering
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• 제19권3호
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• pp.283-293
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• 2019

Evaluating the stability of the excavation face of the cross-river shield tunnel with good accuracy is considered as a nonlinear and multivariable complex issue. Understanding the stability evaluation method of the shield tunnel excavation face is vital to operate and control the shield machine during shield tunneling. Considering the instability mechanism of the excavation face of the cross-river shield and the characteristics of this engineering, seven evaluation indexes of the stability of the excavation face were selected, i.e., the over-span ratio, buried depth of the tunnel, groundwater condition, soil permeability, internal friction angle, soil cohesion and advancing speed. The weight of each evaluation index was obtained by using the analytic hierarchy process and the entropy weight method. The evaluation model of the cross-river shield construction excavation face stability is established based on the idea point method. The feasibility of the evaluation model was verified by the engineering application in a cross-river shield tunnel project in China. Results obtained via the evaluation model are in good agreement with the actual construction situation. The proposed evaluation method is demonstrated as a promising and innovative method for the stability evaluation and safety construction of the cross-river shield tunnel engineerings.

• 건설안전기술
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• 통권47호
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• pp.56-62
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• 2008

In order to apply the Limit Equilibrium Method generally used for the slope stability analysis to the vertical excavation walls reinforced by soil-nailing, in this study, the Limit Equilibrium Method for the temporary shoring facilities reinforced by soil-nailing was proposed, which is based on the stability for the horizontal displacement. In this study, the relation of the internal friction angles of the ground and the vertical excavation depths was arranged, which is satisfying the stability on the horizontal displacement by using the verification of the Limit Equilibrium Method. And then, the rational reinforcing length of soil-nailing was proposed for the critical areas. In addition, the modified safety ratio satisfying the stability on the horizontal displacement was proposed, when the Limit Equilibrium Method was applied to the vertical excavation walls reinforced by soil-nailing.

• Geomechanics and Engineering
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• 제16권3호
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• pp.321-329
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• 2018

Classic braced walls use struts and wales to minimize ground movements induced by deep excavation. However, the installation of struts and wales is a time-consuming process and confines the work space. To secure a work space around the retaining structure, an anchoring system works in conjunction with a braced wall. However, anchoring cannot perform well when the shear strength of soil is low. In such a case, innovative retaining systems are required in excavation. This study proposes an innovative earth-retaining wall that uses in situ soil confined in dual sheet piles as a structural component. A numerical study was conducted to evaluate the stability of the proposed structure in cohesionless dry soil and establish a design chart. The displacement and factor of safety of the structural member were monitored and evaluated. According to the results, an increase in the clearance distance increases the depth of safe excavation. For a conservative design to secure the stability of the earth-retaining structure in cohesionless dry soil, the clearance distance should exceed 2 m, and the embedded depth should exceed 40% of the wall height. The results suggest that the proposed method can be used for 14 m of excavation without any internal support structure. The design chart can be used for the preliminary design of an earth-retaining structure using in situ soil with dual steel sheet piles in cohesionless dry soil.

• 한국지반공학회논문집
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• 제25권1호
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• pp.41-54
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• 2009

본 연구는 터파기 형태의 건설공사에서 레이커나 지반앵커 등의 추가적인 버팀이 필요 없는 2열 H-파일을 이용한 자립식 흙막이(SSR) 공법에 대한 것이다. SSR 공법은 사면파괴 방지용 억지말뚝의 역할을 하는 후열말뚝으로 1차적인 토압을 감소시켜 흙막이 벽체의 토압을 분담하고 억지말뚝과 흙막이 벽체의 일체화를 통해 흙막이 벽체의 강성을 증대시킴으로써 레이커나 지반앵커 등의 지보재가 필요 없이 지반굴착을 수행할 수 있는 자립식 흙막이 공법이다. 본 연구에서는 SSR 공법에 대한 실내모형실험 결과를 통하여 굴착에 따른 지반 및 흙막이 구조체의 변협과 토압특성을 분석하였으며, 여러 현장적용 사례와 계측결과를 통하여 굴착방법에 따른 흙막이 가시설의 실제 변형 특성 및 공법의 적용성을 평가하였다. 평가결과, 발생변위가 모두 계측 허용치 이내에서 만족하였다.

• 대한토목학회논문집
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• 제5권2호
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• pp.11-18
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• 1985

주열식(柱列式) 흙막이벽(壁)은 저진동(低振動), 저소음(低騷音)의 이점(利點)이 있고 주변지반(周邊地盤)이나 인접구조물(隣接構造物)에 미치는 악영향(惡影響)이 적은 이유로 인하여 굴착공사(工事)의 흙막이공(工)으로 많이 채택된다. 이러한 주열식(柱列式) 흙막이벽용(壁用) 말뚝의 합리적(合理的) 설계법(設計法)을 확립(確立)시킬 것을 목적(目的)으로 본논문(本論文)에서는 말뚝의 저항력(低抗力) 산정이론식(算定理論式)이 먼저 유도(誘導)된 후 말뚝설치간격비(設置間隔比)의 결정법(決定法)도 설정(設定)된다. 본(本) 저항력(抵抗力) 산정이론식(算定理論式)의 유도(誘導) 시(時)에는 말뚝 사이 지반(地盤) Arching 현상(現象)이 취급(取扱)되므로써, 지반(地盤) 특성(特性)과 말뚝의 설치상태(設置狀態)가 처음부터 합리적(合理的)으로 고려(考慮)된다. 한편, 본논문(本論文)에서 설정(設定)된 말뚝설치간격비(設置間隔比)의 결정법(決定法)에 의거하면, 말뚝의 설치간격(設置間隔)이 Peck의 안정수(安定數), 지반의 측압계수(側壓係數) 및 내부마찰각(內部摩擦角)으로부터 산정(算定)될 수 있다. 마지막으로 굴착깊이, 말뚝직경(直徑), 말뚝설치간격(設置間隔), 말뚝근입장(根入長) 및 말뚝강성(剛性)을 체계적(體系的)으로 선정(選定)할 수있는 설계법(設計法)이 제안(提案)된다.