• 한국강구조학회 논문집
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• 제16권5호통권72호
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• pp.599-607
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• 2004

건물이 고층화되어 가면서 철골구조 사용이 빈번해지고 있으며 철골구조물의 큰 축력을 받는 기둥에 있어서 이음부 설계가 중요한 문제가 되고 있다. 한편, 미국 AISC 기준에서는 기둥이음에서 지압내력으로 모든 압축축력을 전달할 수도 있으나, 우리나라 기준에서는 소요압축축력의 1/4만을 접촉면에 의해 직접전달 시킬 수 있다고 제한함에 따라 메탈터치를 활용한 기둥이음에 대한 새로운 방법의 개발이 제한되고 있는 실정이다. 따라서 본 논문에서는 기존 볼트, 용접 체결된 실험체에 이음부 틈의 크기를 매개변수로 하는 실험체의 응력전달체계를 규명하고, 메탈터치 정도에 따른 철골기둥 이음부의 압축축력전달 메카니즘을 검증한다. 또한 해석과 실험을 통하여 틈의 크기에 따른 거동 양상을 파악하여 메탈터치에 의한 이음부에서의 응력전달체계에 대한 확인과 이론적 기초를 제시하고자 한다.

• 한국강구조학회 논문집
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• 제16권5호통권72호
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• pp.661-669
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• 2004

철골구조에 있어서 기둥 이음부의 설계는 단순히 적당한 틈에 용접이나 볼트에 의한 이음으로 해석 및 설계가 이루어지고 있는 것이 보편적인 현실이다. 이때 이음부에서 메탈터치에 의하여 상부의 응력을 하부로 전달하는 정도를 규정하는 기준은 각 나라마다 다르다. 미국은 설계자의 판단에 따라 모두 전달 가능하다는 규정아래 설계가 이루어지고 있으며, 우리나라와 일본의 경우는 25%까지 전달 가능하다는 규준에 의해 설계가 이루어지고 있어 그 차이가 너무 크다. 따라서 본 연구에서는 메탈터치에 의한 이음의 응력체계를 규명하여 이음의 합리성을 증진시키고, 이음의 경제성 및 시공성을 위해 틈의 위치 및 이음방법을 매개변수로 하여 메탈터치 실험을 실시하여 미국 및 일본 규준과 비교하였다. 또한 메탈터치 이음부의 거동을 실험적인 방법과 해석적인 방법을 통하여 분석하여 메탈터치 이음부의 설계에 필요한 기초 자료를 제공하고자 한다.

• 한국화재소방학회논문지
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• 제28권2호
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• pp.26-33
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• 2014

최근 국내에서는 건축물에서 공간의 미관이나 활용성 때문에 유리창 및 유리벽체의 사용에 대한 관심이 높아지고 있다. 하지만, 건축물의 내부공간은 화재시 연소확대 및 인명피해를 막기 위해 건축법에 따라 내화구조로 방화구획을 하여야 한다. 이러한 방화구획벽에 비차열 유리를 사용할 경우, 화재시 인접 거실로 복사열에 의한 화재의 확대, 인명 피해가 일어날 수 있다. 본 연구에서는 비차열 유리창에 대한 복사열의 위험성을 평가하기 위하여 내화실험을 실시하여 실험체 이면에서의 온도와 열류량을 측정하여 그 결과를 분석하였다.

• KIEAE Journal
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• 제5권3호
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• pp.41-48
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• 2005

Before occupation of an apartment housing, the builders are required to inform the test result of IAQ to the public. However, there is no simplified method to predict IAQ before measurement of pollutant concentration. In this study, a simplified way of predicting IAQ based on the distribution of indoor pollutant concentration is proposed. 7 different cases of air change rate have been simulated through CFD analysis to get the distribution ratio of each pollutant material and then simplified functions were used with CRIAQ1 values derived from CFD simulation to evaluate by comparing the influence of each material in the indoor pollutant concentration. Again, a lot of efforts which can improve the indoor air quality have been performed. Materials used in indoor space are labeled with their pollutant emission level. Installation of ventilation system in residential buildings will be regulated by a building codes sooner or later. But it is important to understand the fact that layout of walls, location or size of openings will influence the indoor air flow and pollutant concentration. And location of emitting material influences to indoor air pollutants distribution. But until now there is few recognition and consideration of these factors. Therefore, in this paper the effects of these factors is proved and some kind of guideline is made for designers after a comparison of typical apartment floor plan and a new type plan with their average pollutant concentration and its distribution of each room. CFD(Computational Fluid Dynamics) program was used to show the indoor air flow and pollutant concentration distribution. For this purpose, a typical $100m^2$ apartment floor plan was chosen as a case study model and several alternatives were reviewed to improve the IAQ performance. The simulation took place in the condition of natural ventilation through windows.

• Steel and Composite Structures
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• 제33권1호
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• pp.67-79
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• 2019

Composite columns made of high strength materials have been used in high-rise construction owing to its excellent structural performance resulting in smaller cross-sectional sizes. However, due to the limited understanding of its structural response, current design codes do not allow the use of high strength materials beyond a certain strength limit. This paper reports additional test data, analytical and numerical studies leading to a new design method to predict the ultimate resistance of composite columns made of high strength steel and high strength concrete. Based on previous study on high strength concrete filled steel tubular members and ongoing work on high strength concrete encased steel columns, this paper provides new findings and presents the feasibility of using high strength steel and high strength concrete for general double symmetric composite columns. A nonlinear finite element model has been developed to capture the composite beam-column behavior. The Eurocode 4 approach of designing composite columns is examined by comparing the test data with results obtained from code's predictions and finite element analysis, from which the validities of the concrete confinement effect and plastic design method are discussed. Eurocode 4 method is found to overestimate the resistance of concrete encased composite columns when ultra-high strength steel is used. Finally, a strain compatibility method is proposed as a modification of existing Eurocode 4 method to give reasonable prediction of the ultimate strength of concrete encased beam-columns with steel strength up to 900 MPa and concrete strength up to 100 MPa.

• 한국건축시공학회지
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• 제18권6호
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• pp.543-550
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• 2018

해안도시에 건설하는 건축물의 콘크리트 배합은 환경조건에 따라 설계기준 압축강도로 제한하고 있으나 혼화재 혼입에 의해 염해 내구성이 급격히 향상되고 있음이 기존연구에서 명확히 되고 있으나 아직 규정에 반영되고 있지는 못한 실정이다. 본 연구에서는 레미콘의 배합을 분석하고 비교 시험체 제작을 통하여 염해 내구성에 대한 건축구조기준을 만족시키면서 경제성을 가지는 결과를 도출하고자 하였다. 시판되는 레미콘의 경우 설계기준 압축강도 이상의 강도와 그에 따른 염소이온 차단성을 가지며 전 배합조건에 대해서 OPC 35MPa를 능가하는 성능을 확인할 수 있었다. 내구성 및 경제성을 동시에 달성하기 위해서 납품 전 사전배합을 실시하여 염해 저항성을 포함한 기본물성을 검토할 필요가 있다고 사료된다.

• Earthquakes and Structures
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• 제23권2호
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• pp.129-138
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• 2022

One of the objectives to prevent building pounding between two adjacentstructures is to considerseparation distance or decrease relative displacement during seismic excitation. Although the majority of building codes around the world have basically suggested some equations or approximately recommended various distances between structuresto avoid pounding hazard, but a lot of reportsin zone of pounding have obviously shown thatsafety situation or economic consideration are not always provided due to the collisions between buildings and the cost of land, respectively. For this purpose, a dynamic MDOF model by having base isolation system is numerically considered and using various earthquake records, relative displacements are mathematically investigated. Different equations to determine the value of damping ratio are collected and the results of evaluations are listed for comparison among them to present a new equation for determination of impact damping ratio. Presented equation is depends significantly on impact velocity before and after impact based on artificial neural network, which the accuracy of them is investigated and also confirmed. In order to select the optimum equation, hysteresisloop of impact between base of building and rubber bumper is considered and compared with the hysteresis loop of each impact, calculated by different equations. Finally, using representative equation, the effect of thickness, number and stiffness of rubber bumpers are numerically investigated. The results of analysis indicate that stiffness and number of bumpers have significantly affected in zone of impact force while the thickness of bumpers have not shown significant influence to calculate impact force during earthquake. For instance, increasing the number of bumpers, gap size between structures and also the value of stiffness is caused to decrease impact force between models. The final evaluation demonstrates that bumpers are able to decrease peak lateral displacement of top story during impact.

• Structural Engineering and Mechanics
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• 제84권3호
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• pp.311-321
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• 2022

In the buildings with long spans and high floors, such as logistics warehouses and semiconductor factories, it is difficult to install supporting posts under beams during construction. Therefore, the size of structural members becomes larger inevitably, resulting in a significant increase in construction costs. Accordingly, a prestressed hybrid wide flange (PHWF) beam with hollowed steel webs was developed, which can reduce construction costs by making multiple openings in the web of the steel member embedded in concrete. However, since multiple openings exist and prestress is introduced only into the bottom flange concrete, it is necessary to identify the shear resistance mechanism of the PHWF beam. This study presents experimental shear tests of PHWF beams with hollowed steel webs. Four PHWF beams with cast-in-place (CIP) concrete were fabricated, with key variables being the width and spacing of the steel webs embedded in the concrete and the presence of shear reinforcing bars, and web-shear tests were conducted. The shear behavior of the PHWF beam, including crack patterns, strain behavior of steel webs, and composite action between the prestressed bottom flange and CIP concrete, were measured and analyzed comprehensively. The test results showed that the steel web resists external shear forces through shear deformation when its width is sufficiently large, but as its width decreased, it exerted its shear contribution through normal deformation in a manner similar to that of shear reinforcing bars. In addition, it was found that stirrups placed on the cross section where the steel web does not exist contribute to improving the shear strength and deformation capacity of the member. Based on the shear behavior of the specimens, a straightforward calculation method was proposed to estimate the web-shear strength of PHWF beams with CIP concrete, and it provided a good estimation of the shear strength of PHWF beams, more accurate than the existing code equations.

• 풍력에너지저널
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• 제15권1호
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• pp.91-102
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• 2024

Rapid progress is being made in foundational technology research and engineering for the construction of floating offshore wind farms. There is active development of technology for detachable mooring systems, which have strengths in addressing maintenance issues that arise in floating offshore wind farms and enhance their economic viability. Conventional detachable mooring systems use Kenter links inserted into the middle of mooring chains, which require excessive time for retrieval by Anchor Handling Tug Supply (AHTS) vessels during detachment operations. Moreover, these operations pose risks of link damage and accidents. Therefore, there is a demand for the development of a new concept of detachable mooring systems. The proposed detachable mooring system in this study simultaneously integrates a fairlead chain stoppers (FCS) and submersible mooring pulleys (SMP), which enables all operations to be conducted on the AHTS vessel without underwater tasks. This study detailed the design and safety evaluation of the SMP, a core component of the detachable mooring system, based on the minimum breaking load (MBL) of selected mooring lines according to the capacity of the floating platform. It referenced international codes (AISC Specification for Structural Steel Buildings D5, Pin-Connected Members) for design verification and performed finite element analysis to evaluate the strength of major components in installation and operation scenarios. Additionally, procedures and techniques for evaluating the structural strength of components under uncertain boundary conditions were proposed.

• 콘크리트학회논문집
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• 제22권3호
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• pp.381-388
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• 2010

이 논문에서는 내진상세가 적용되지 않은 RC골조의 지진 거동 특성을 파악하였다. 해석 대상 건물은 내진 규준의 적용을 받지 않고 중력하중만을 고려하여 설계되었다. 원형철근이 주철근으로 사용되었으며, 부재는 낮은 수준의 전단력을 견딜 수 있는 최소한의 스터럽이 사용되어 코어 부분의 구속효과는 거의 없다. 평면비정형성을 가진 건물의 경우, 푸쉬오버 해석을 통해서는 비틀림으로 인한 평면상에서 연단부의 손상집중을 파악할 수 없으므로 비선형 동적해석을 사용하는 것이 바람직하다. 섬유요소를 이용한 비선형 동적해석은 양방향 지진하중과 비틀림 거동의 영향을 받는 RC골조의 거동을 성공적으로 예측할 수 있었다. 하지만, 보다 진보된 응답 예측을 위해서는 부착 미끄러짐과 같은 보-기둥 접합부의 국부거동을 정밀하게 나타내는 모델링 요소의 개발이 필요하다.