• 한국전산구조공학회논문집
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• 제19권2호
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• pp.203-212
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• 2006

합성형은 비합성형에 비해 역학적 측면에서 큰 장점을 지닌 것이 사실이지만 사각이 심한 사교들의 경우 합성형은 매우 큰 상판응력을 유발할 수 있기 때문에 종종 이들 사교들에 대한 비합성형 설계가 검토되어지곤 한다. 하지만 이러한 비합성형은 상판과 주형 경계면에서의 미끄러짐(slip)과 같은 구조적인 문제점을 지니고 있어 현장에 적용하기에는 다소 어려움이 있다. 본 연구에서는 사교들의 전반적인 거동에 영향을 미치는 상판과 주형간의 두 가지 상호작용(합성작용과 비합성작용) 효과를 분석하여 사각이 심한 사교들에 대한 합성형의 적용 타당성을 조사하였다. 주형간격, 사각, 상판 종횡비를 매개변수로 총 27개의 단순지지된 사교들에 대한 일련의 연구를 수행하였다. 이전 연구에서 제안된 바 있는 받침들간의 강성조정 개념을 이용하여 합성형 사교의 거동을 개선시킬 수 있는 가능성도 함께 검토하였다. 해석결과로부터 비합성 사교들보다 합성형 사교들에서 훨씬 바람직한 거동이 나타나며 받침들간의 강성조정 방법은 보다 합리적이며 경제적인 합성형 사교 및 하부구조의 설계를 가능하게 해준다.

• Steel and Composite Structures
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• 제3권2호
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• pp.111-122
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• 2003

The paper presents a model for analysing the shear-lag effect on the slab of twin-girder composite decks subjected to static actions, support settlements and concrete shrinkage, which are the main actions of interest in composite bridge design. The proposed model includes concrete creep behaviour and shear connection flexibility. The shear-lag in the slab is accounted for by means of a new warping function. The considered actions are then applied to a realistic bridge deck and their effects are discussed. The proposed method is utilised to determine the slab effective widths for three different width-length ratios of the deck. Finally, a comparison between the results obtained with the Eurocode EC4-2 and those obtained with the proposed model is performed.

• Steel and Composite Structures
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• 제9권4호
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• pp.325-348
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• 2009

This paper is concerned with steel-concrete composite plate girders curved in plan. At the design stage these girders are assumed sometimes to act independent of the deck slabs resting on them in order to simplify the analysis. The advantage of composite action between the steel girders and concrete deck is not utilized. Finite element modeling of such composite action in plate girders is considered in this paper. Details of the finite element modeling and the non-linear analysis of the girders are presented along with the results obtained. Tension field action in the web panels similar to those observed in the straight plate girders is also noticed in these girders. Finite element and experimental results in respect of curved steel plate girders and straight composite plate girders tested by other researchers are presented first to assess the accuracy of the modeling. Effects of parameters such as curvature, steel flange width and web panel width that affect the behavior of composite girders are then considered in the analyses. An approximate method to predict the ultimate strength of horizontally curved composite plate girders is also presented.

• KIEAE Journal
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• 제10권1호
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• pp.25-31
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• 2010

An experimental investigation of composite beams composed of wide flange steel and precast concrete is presented. The bottom flange of the steel section is encased in precast concrete. The composite beams tested in this study were designed to reduce the depth of the slab and beam. The slabs are constructed on top of the edges of the Structural Composite Hybrid System, instead of on top of the steel flange, decreasing the depth of the beams. When concrete is cast on the metal deck plate located on the edges of the precast concrete, the weight of the concrete slabs and other construction loads must be supported by the contacts between the steel and the precast concrete. This interface must not exhibit bearing failures, shear failures, and failures caused by torque due to the loading of the precast concrete. When the contact area between the concrete and the bottom flange of the steel beam is small, these failures of the concrete are likely and must be prevented. The premature failure of precast concrete must not also be present when the weight of the concrete slabs and other construction loads is loaded. This paper presents a load carrying capacity of Structural Composite Hybrid System in order to observe the failure mode. The symmetrically distributed loading that caused the failure of the composite beam was found. The paper also provides design recommendations of such type of composite structure.

• 한국강구조학회 논문집
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• 제22권5호
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• pp.465-475
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• 2010

곡선교량시스템에서 거더는 편심하중이 없어도 교량이 가지는 곡률 자체로 인하여 휨 및 비틀림 거동을 하게 된다. 휨과 비틀림을 동시에 받는 강/콘크리트 합성 박스거더는 St. Venant 비틀림에 의해 콘크리트 바닥판에 발생하는 사인장 응력에 의해 그 극한강도가 제한된다. 합성 박스거더의 극한강도를 얻기 위하여 유한요소해석 패키지 프로그램 ABAQUS을 이용하여 재료 및 기하 비선형성뿐 아니라 콘크리트 균열후 거동 등이 고려된 비선형해석을 수행하였다. 또한 구조해석 이론에 근거한 해석적 방법론으로 합성 박스거더의 휨과 비틀림에 대한 극한강도 상호 작용이 고려된 수식을 유도하여 수치해석 결과와 비교하였다. 휨 거동에 의해 정모멘트 구간 박스거더 상부에 발생하는 종방향 압축응력은 바닥판 콘크리트의 전단강도를 일정부분 향상시켜 결과적으로 전체 박스거더의 비틀림강도가 향상되는 효과가 확인되었다. 유한요소해석 및 구조해석 이론 전개의 결과에 근거하여 강합성 박스거더의 극한강도 상호작용을 예측하는 간편한 형태의 수식이 제안되었다.

• Computers and Concrete
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• 제23권5호
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• pp.329-334
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• 2019

Traffic flow capacity of some old road bridges is insufficient due to limited deck width. In such cases bridge deck widening is a common solution. For multi-girder reinforced concrete (RC) bridges it is possible to add steel-concrete composite girders as the new outermost girders. The deck widening may be combined with bridge strengthening thanks to thickening of the existing deck slab. Joint action of the existing and the added parts of such bridge span must be ensured. It refers especially to the horizontal plane at the interface of the existing slab and the added concrete layer as well as to the vertical planes at the external surfaces of the initially outermost girders where the added girders are connected to the existing bridge span. Since the distribution of the added concrete is non-uniform in the span cross-section the structure is particularly sensitive to the added concrete shrinkage. The shrinkage induces shear forces in the aforementioned planes. Widening of a 12 m long RC multi-girder bridge span is numerically analysed to assess the influence of the added concrete shrinkage. The analysis results show that: a) in the vertical plane of the connection of the added and the existing deck slab the longitudinal shear due to the shrinkage of the added concrete is comparable with the effect of live load, b) it is necessary to provide appropriate longitudinal reinforcement in the deck slab over the added girders due to tension induced by the shrinkage of the added concrete.

• Steel and Composite Structures
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• 제19권1호
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• pp.153-171
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• 2015

Twelve large-scale composite deck slabs were instrumented and tested in a cantilever diaphragm configuration to assess the effect of fibers and welded wire mesh (WWM) on the in-plane shear capacity of composite deck slabs. The slabs were constructed with reentrant decking profile and reinforced with different types and dosages of secondary reinforcements: Conventional welded wire mesh (A142 and A98); synthetic macro-fibers (dosages of $3kg/m^3$ and $5.3kg/m^3$); and hooked-end steel fibers with a dosage of $15kg/m^3$. The deck orientation relative to the main beam (strong and weak) was also considered in this study. Fibers and WWM were found efficient in distributing the applied load to the whole matrix, inducing multiple cracking, thereby enhancing the strength and ductility of composite deck slabs. The test results indicate that fibers increased the slab's ultimate in-plane shear capacity by up to 29% and 50% in the strong and weak directions, respectively. WWM increased the ultimate in-plane shear capacity by up to 19% in the strong direction and 9% in the weak direction. The results suggest that discrete fibers can provide comparable diaphragm behavior as that with the conventional WWM.

• 한국방재학회:학술대회논문집
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• 한국방재학회 2008년도 정기총회 및 학술발표대회
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• pp.533-536
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• 2008

H 형강은 시공성과 유지관리의 간편성으로부터 교량의 주형과 가설 구조물에 사용하는 경우가 증가하고 있다. 특히 H형강을 교량에 적용하는 경우 지점부의 부모멘트에 의해 지간장 20m 내외가 한계이고, 기존공법의 경우 콘크리트를 사용한 공법에 비해 큰 장점을 가지고 있지 못한다. 따라서 본 연구에서는 교량의 장지간화가 가능한 가로거더공법을 개발하여 기존의 강교량의 문제점을 극복한 장지간 H형강 강합성 교량을 개발하고자한다. 여기서는 수치해석적 방법으로 주형과 주형이 연속화되는 시점을 변화시켜 내하력을 계산하고, 그 결과로 부터 합리적인 가로거더공법을 개발하고자한다.

• 한국콘크리트학회:학술대회논문집
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• 한국콘크리트학회 2002년도 봄 학술발표회 논문집
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• pp.519-524
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• 2002

The long span PSC deck of composite girder bridge should be needed in order to improve the endurance and to simplify the structure of the steel bridge. However, there have been few domestic research activities about long-span PSC decks for the steel bridges with a small number of girders. In this study, a literature survey is performed to develop a new deck system for the steel bridge with a small number of girders. By considering the characteristics of a small number of girders bridge system, a cast-in-place long span PSC deck is proposed for a small number of girders bridges. To examine structural behavior and safety of the proposed PSC deck, the real scale partial models of the deck(12m$\times$3.2m) are tested under the static loading. In the test, the failure mode and behavior of each specimen, and ultimate load carrying capacity of the proposed PSC deck are identified.

• Structural Engineering and Mechanics
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• 제55권4호
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• pp.801-813
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• 2015

Flexural stiffness of bridge spans has become even more important parameter since Eurocode 1 introduced for railway bridges the serviceability limit state of resonance. For simply supported bridge spans it relies, in general, on accurate assessment of span moment of inertia that governs span flexural stiffness. The paper presents three methods of estimation of the equivalent moment of inertia for such spans: experimental, analytical and numerical. Test loading of the twin truss bridge spans and test results are presented. Recorded displacements and the method of least squares are used to find an "experimental" moment of inertia. Then it is computed according to the analytical method that accounts for joint action of truss girders and composite deck as well as limited span shear stiffness provided by diagonal bracing. Finally a 3D model of finite element method is created to assess the moment of inertia. Discussion of results is given. The comparative analysis proves efficiency of the analytical method.