• 터널과지하공간
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• 제20권2호
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• pp.73-81
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• 2010

본 논문에서는 여러 가지의 구성방정식 모델을 이용하여 NATM 터널의 유한요소 해석의 적용에 대하여 설명하였다. 일련의 2차원 평면변형률 조건하 NATM 터널의 지반-구조물에 대한 해석을 분석하였다. 사용한 4가지 구성방정식 모델로는 선형탄성, Mohr-Coulomb 탄소성, 변형경화, 연화지반모델이다. 터널설계에서는 지표면의 침하, 지보재 축력에 대한 적절한 예측이 필요하다. 수치해석결과 진보된 구성방정식 모델이 지반변형과 지보재의 축력에 대해 보다 적절한 결과를 나타내었다.

• 한국지반공학회:학술대회논문집
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• 한국지반공학회 1991년도 추계학술발표회 논문집 지반공학에서의 컴퓨터 활용 COMPUTER UTILIZATION IN GEOTECHNICAL ENGINEERING
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• pp.255-270
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• 1991

In recent years. finite element methods have been used with increasing effectiveness in analysis of displacements and stresses within soil masses. However, one of the weakest links in the analytical representations used in these methods is the models of the material behaviour. Herein is discribed a modification to the finite element methods that allows solution problems with realistic stress-strain relation for soils. A finite element program for the precision prediction of the stress distribution within foundation has been developed using the elasto-plastic Work-Hardening model. The developed program is verified by comparing the results of this study with the tested results for Sacramento river sand. The main results obtained from the numerical examples are as follows: The vertical total stress increments are insensitive to drainage and constitutive equation of materials. The horizontal total stress increments are considerably affected by the drainage and constitutive equation of materials. The maximum shear stresses are affected by the drainage only in elasto-ptastic meterirals. The excess pore water pressures and the volumetric strains not only are considerably affected by the constitutive equation of materials. but also have almost similar distribution.

• 한국지반환경공학회 논문집
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• 제22권1호
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• pp.13-20
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• 2021

A suite of 3D large deformation finite element (FE) analyses was performed to investigate the load transfer mechanism and penetration resistance of spudcan foundations in heterogeneous soil profile consisting of sand and clay. The Elasto-Plastic models following Mohr-Coulomb and Tresca failure criteria were adopted for sand and clay, respectively. The accuracy of the numerical model was validated against centrifuge test measurements. The dense sand behavior with dilation is modeled using the non-associated flow rule. An investigation study consisting of key parameters, which includes variation in soil stratigraphy (sand-clay, sand-clay-sand), strength parameters of sand and clay (��' and su) and normalized height ratio of the sand layer (Hs/D) was conducted to assess the penetration behavior of spudcan. Based on calculated outputs, it was demonstrated that these parameters have a significant influence on the penetration resistance of spudcan. The calculated penetration resistance profiles are compared with the published (sand overlying clay) analytical model. It is confirmed that for the case of two-layer soil, the available theoretical model provides an accurate estimate of peak penetration resistance (qpeak). In the case of three-layer soil, the presence of a third stiff layer affects the penetration resistance profile due to the squeezing of the soil.

• 국제학술발표논문집
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• The 3th International Conference on Construction Engineering and Project Management
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• pp.432-439
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• 2009

This research project was carried out to develop the technique to assess quantitatively and rapidly the stability of a tunnel by using the measured displacement at the tunnel construction site under excavation. To achieve this purpose, a critical strain concept was introduced and applied to an assessment of a tunnel under construction. The new technique calculates numerically the strains of the surrounding ground by using the measured displacements during excavation. A numerical practical system was developed based on the proposed analysis technique in this study. The feasibility of the developed analysis module was verified by incorporating the analysis results obtained by commercial programs into the developed analysis module. To verify the feasibility of the developed analysis module, analysis results of models both elastic and elasto-plastic grounds were investigated for the circular tunnel design. Then the measured displacements obtained in the field are utilized practically to assess the safety of tunnels using critical strain concept. It was verified that stress conditions of in-situ ground and ground material properties were accurately assessed by inputting the calculated displacement obtained by commercial program into this module for the elastic ground. However for the elasto-plastic ground, analysis module can reproduce the initial conditions more closely for the soft rock ground than for the weathered soil ground. The stability of tunnels evaluated with two types of strains, that is, the strains obtained by dividing the crown displacement into a tunnel size and the strains obtained by using the analysis module. From this study, it is confirmed that the critical strain concept can be fully adopted within the engineering judgment in practical tunnel problems and the developed module can be used as a reasonable tool for the assessment of the tunnel stability in the field.

• 한국지반공학회논문집
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• 제15권5호
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• pp.81-98
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• 1999

도심지 터널 건설에 있어서 중요한 고려 사항중 하나가 지상 건물에 대한 터널 굴착의 영향을 평가하는 문제이다. 일반적으로 터널 굴착에 의한 지표침하로 인접구조물이 영향을 받기도 하지만 기존 인접구조물이 터널 굴착에 따른 지표침하에 영향을 미치기도 한다. 이러한 터널 굴착에 의한 기존 인접구조물의 침하억제 효과와 구조물 손상 평가인자의 감소효과를 규명하기 위해서 3차원 탄소성 유한요소해석을 수행하였다. 또한, 본 연구에서는 터널 굴착에 기인한 지반침하가 인접구조물에 미치는 영향과 인접구조물이 지표침하에 미치는 영향을 규명하기 위해서 총 162개의 2차원 탄소성 유한요소 모델을 설정하고, 매개변수 변환연구를 수행하였다. 본 연구에서는 구조물의 폭과 구조물의 축강성 및 휨강성, 구조물의 위치, 터널 심도 등을 고려하였다. 그리고, 구조물과 지반침하의 상호작용을 표현하기 위해서 구조물의 손상평가 인자인 뒤틈각(angular distortion), 처짐비(deflection ratio), 건물의 최대침하량, 부등침하량 및 수평변형률 등의 변화를 관찰하였다. 한편, 지반의 강성과 구조물의 축, 휨강성을 대표할 수 있는 상대 강성비를 도입함으로써 터널 설계자가 활용할 수 있는 도표를 제시하였고, 구조물을 고려하지 않은 상태에서의 greenfield 지표침하 트라프를 수정할 수 있는 보정계수(modification factor) 개념을 도입하였다. 본 연구에서는 구조물과 지표침하와의 상호 간섭효과에 의한 지표침하의 억제와 인접구조물 손상평가 인자들의 감소효과를 고려할 수 있도록 하기 위해서 설계 단계에서 보정계수를 활용한 인접구조물의 합리적인 손상평가방법을 제안하였다.