• 한국농공학회:학술대회논문집
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• 한국농공학회 2000년도 학술발표회 발표논문집
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• pp.466-470
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• 2000

Recently, the calculation of horizontal bearing capacity of piles foundation has been considered very important for earthquake or wind resistant design in Korea. This study deals with the lateral resistance of PHC pile instead of vertical capacity for earthquake resistant design as well as wind. As case study, the prediction values were compared with measured ones based on ASTM. During this research, Matlock & Reese, Davisson & Gill, Broms and Chang's methods were selected in calculating prediction of lateral resistance of PHC piles. In decomposed granite and clayey soils, The result showed that prediction values proposed by Matlock & Reese(Davisson & Gill), Chang and Broms were smaller values than real values. four proposed methods by Matlock & Reese(Davisson & Gill) and Chang based on lateral deflection and Broms by ultimate lateral resistance turned out valid in view of engineering practice.

• 한국지반공학회논문집
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• 제30권1호
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• pp.75-91
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• 2014

횡하중이 작용하는 짧은말뚝의 지지거동에 영향을 미칠 수 있는 인자들에 대한 분석을 문헌과 사례를 통해 제시하였다. 가상고정점은 $1/{\beta}$를 일률적으로 적용하는 것보다 지반의 강성에 따라 적용되어야 하고, Chang(1937)법과 P-Y 해석법이 유사한 고정점 위치를 예측하였다. 점성토의 수평지지력은 실내와 현장이 다른 특성을 보였고, 평가방법은 실내시험에서는 모두 과소예측을 하였고, 현장은 과소 또는 과대 예측을 한다. 현장실험에서는 Hansen(1961)법이 비교적 실측에 근접한 예측결과를 제시하였다. 사질토의 수평지지력 평가법은 실내시험에서는 과대예측을 하였고, 현장도 대부분 과대예측한다. 경험적 수평지지력 분포도를 사용한 Zhang(2005)법이 비교적 실측에 근접한 예측 결과를 보였다. 본 연구에서는 점성토 지반에 대하여 극한수평지지력 분포도 및 산정방법을 제안하였다. 제안법은 다른 방법에 비해 실측과 가장 근접한 결과를 추정하였다.

• 한국지반공학회지:지반
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• 제6권1호
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• pp.43-58
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• 1990

지반앵커의 극한인기저항흉을 구하기 위해서는 파괴면의 위치, 파괴면 위의 수직응력 및 마찰각 을 알지 않으면 안된다. 본 연구에서는 평면변형률 모형실험을 통해서, 앵커주변지반의 변형을 관찰하여 파괴면의 위치를 구하고, 앵커표면의 수직응력,전단응력을 실측하므로써 앵커표면의 응력상태를 분석했다. 그리고, 측압계수와 파괴면의 위치의 관계(파괴모-드)를 구하구 무차원 계수인 극한인발저항력계수를 이용하여 극한51기저항력의 산정식을 제안했다.

• Steel and Composite Structures
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• 제1권3호
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• pp.341-354
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• 2001

This paper provides a state-of-the-art review on advanced analysis models for investigating the load-displacement and ultimate load behaviour of steel and composite frames subjected to static gravity and lateral loads. Various inelastic analysis models for steel and composite members are reviewed. Composite beams under positive and negative moments are analysed using a moment-curvature relationship which captures the effects of concrete cracking and steel yielding along the members length. Beam-to-column connections are modeled using rotational spring. Building core walls are modeled using thin-walled element. Finally, the nonlinear behaviour of a complete multi-storey building frame consisting of a centre core-wall and the perimeter frames for lateral-load resistance is investigated. The performance of the total building system is evaluated in term of its serviceability and ultimate limit states.

• Earthquakes and Structures
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• 제22권3호
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• pp.319-330
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• 2022

Retrofit of soft-story buildings due to seismic loads using Gap-Inclined-Brace (GIB) system is considered a new retrofit technique that aims to maintain both strength and stiffness of structure. In addition, it provides more ductility and less P-delta effect, and subsequently better performance is observed. In this paper, the effect of the eccentricity between GIB and the retrofitted column due to installation on the efficiency of the retrofitting system is studied. In addition, a modification in the determination method of GIB properties is introduced to reduce the eccentricity effect. Also, the effect of GIB system on the seismic response of mid-rise buildings with different heights considering soft-story at various heights has been studied. A numerical model is developed to study the impact of such system on the response of retrofitted soft-story buildings under the action of seismic loads. To achieve that goal, this model is used to perform a numerical investigation, by considering five case study scenarios represent several locations of soft-story of two mid-rise reinforced concrete buildings. At first, Non-linear static pushover analysis was carried out to develop the capacity curves for case studies. Then, Non-linear time history analyses using ten earthquake records with five peak ground accelerations is performed for each case study scenario before and after retrofitting with GIB. The results show that large GIB eccentricity reduce the ultimate lateral resistance and deformation capacity of the retrofitting system. Moreover, the higher the retrofitted building, the more deformation capacity is observed but without significant increase in ultimate lateral resistance.

• 한국지반공학회논문집
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• 제16권4호
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• pp.5-16
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• 2000

본 연구에서는 지금까지 수행한 일련의 결과들에 근거한 지반력 계수와 극한 지반반력을 역해석적 방법으로 결정하고 이를 이용하여 비균질 지반에서의 비선형 수평거동을 예측할 수 있는 해석기법을 제안하고자 함이 목적이다. Chang이 제안한 해석기법은 비균질 지반의 비선형적인 거동을 예측하기에는 어려움이 있다. 이에 본 연구에서는 말뚝의 비선형 거동 예측을 위하여 Chang 모델에 p - y 곡선을 적용하는 복합적인 해석기법을 제안하고 해석 프로그램을 개발하였다. 그리고 본 해석기법의 적용성 검증을 위하여 모형실험 및 현장실험 결과와 상용 프로그램인 Pentagon2D을 이용한 해석 결과와 비교 검토하였다. 해석상에 이용한 지반반력 계수와 극한 지반반력은 균질지반에서 결정된 값을 비균질 지반에 적용하였으며, 본 해석기법에 의한 거동 예측결과는 모형실험 결과와 잘 일치하였다. 또한 현장실험과의 비교에서도 정도 높은 일치성을 보였다.

• 한국지진공학회논문집
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• 제2권4호
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• pp.31-40
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• 1998

본 연구에서는 등가 정적 지진하중을 받는 고층 벽식구조물의 거동을 파악하고자 탄소성해석을 수행하고 극한 수평내력을 평가하였다 해석 대상 건물로 현재 국내에서 분양되고 있는 두세대로 이루어진 25층 고층벽식 아파트 평면 형식을 선정하였다 3차원 정적 탄소성 입체 해석 프로그램(CANNY)을 이용하여 벽식 아파트 건물의 층별 초기 탄성강성 항복후 항복강성, 종국 내력 등을 평가한다 정적 탄소성 해석결과 해석대상 해석대상 아파트 건물의 항복내력은 설계용 등가 정적 지진하중의 1.6배 정도의 여유를 가지고 있음을 보여준다.

• Earthquakes and Structures
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• 제21권5호
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• pp.445-460
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• 2021

This study experimentally explored the behaviour of 12 concrete filled steel tube (CFST) and steel tube columns subjected to lateral cyclic loading. The L/D ratio was 12.3 while D/t ratios were 45.4, 37.8 and 32.4, classifying these 12 specimens into 3 groups. Each group included 3 CFST and 1 steel tube columns and were tested to failure. The experimental results indicated that CFST specimens reached the state of 'collapse prevention' (drift 4%) prior to the occurrence of local buckling. Strength degradation of CFST specimens did not occur up to the failure by buckling. This showed the favourable characteristic of CFST columns in preventing collapse of structures subjected to earthquakes. The high energy absorption capability in the post collapse limit state was appropriate for dissipating energy in structures. Compared to steel tube columns, CFST columns delayed local buckling and prevented inward buckling. Consequently, CFST columns exhibited their outstanding seismic performance in terms of the increased ultimate resistance, capacity to sustain 2-3 additional load cycles and significantly higher drift. A simple and reasonably accurate model was proposed to predict the ultimate strength of CFST columns under lateral cyclic loading.

• Geomechanics and Engineering
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• 제9권3호
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• pp.313-328
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• 2015

In the present study, a CPT-based p-y analysis method was proposed for offshore mono-piles embedded in sands. Static and cyclic loading conditions were both taken into account for the proposed method. The continuous soil profiling capability of CPT was an important consideration for the proposed method, where detailed soil profile condition with depth can be readily incorporated into the analysis. The hyperbolic function was adopted to describe the non-linear p-y curves. For the proposed hyperbolic p-y relationship, the ultimate lateral soil resistance $p_u$ was given as a function of the cone resistance, which is directly introduced into the analysis as an input data. For cyclic loading condition, two different cyclic modification factors were considered and compared. Case examples were selected to check the validity of the proposed CPT-based method. Calculated lateral displacements and bending moments from the proposed method were in good agreement with measured results for lateral displacement and bending moment profiles. It was observed the accuracy of calculated results for the conventional approach was largely dependent on the selection of friction angle that is to be adopted into the analysis.

• Earthquakes and Structures
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• 제19권4호
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• pp.273-286
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• 2020

The pile group foundation is widely used for gravity pier of high-speed railway bridges in China. If a moderate or strong earthquake occurs, the pile-surrounding soil will exhibit obvious nonlinearity and significant pile group effect. In this study, an improved pushover analysis model for the pile group foundation with consideration of pile group effect is presented and validated by the quasi-static test. The improved model uses simplified springs to simulate the soil lateral resistance, side friction and tip resistance. PM (axial load-bending moment) plastic hinge model is introduced to simulate the impact of the axial force changing of pile group on their elastic-plastic characteristics. The pile group effect is considered in stress-stain relations of the lateral soil resistance with a reduction factor. The influence factors on nonlinear characteristics and plastic hinge distribution of the pile group foundation are discussed, including the pier height, longitudinal reinforcement ratio and stirrup ratio of the pile, and soil mechanical parameters. Furthermore, the displacement ductility factor, resistance increase factor and yielding stiffness ratio are provided to evaluate the seismic performance of soil-pile system. A case study for the pile group foundation of a railway simply supported beam bridge with a 32 m-span is conducted by numerical analysis. It is shown that the ultimate lateral force of pile group is not determined by the yielding force of the single one in these piles. Therefore, the pile group effect is essential for the seismic performance evaluation of the railway bridge with pile group foundation.