• Structural Engineering and Mechanics
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• 제54권3호
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• pp.521-543
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• 2015

Depending on the damage type as well as the level of damage observed after the earthquake, certain measures should be taken for the damaged buildings. In this study, structural repairing of two different types of damaged RC beam-column assembly by carbon fiber-reinforced polymer sheets is investigated in detail as a member repairing technique. Two types of 1:1 scale test specimens, which represent the exterior RC beam-column connection taken from inflection points of the frame, are utilized. The first specimen is designed according to the current Turkish Earthquake Code, whereas the second one represents a deficient RC beam-column assembly. Both of the specimens were subjected to cyclic quasistatic loading in the laboratory and different levels of structural damage were observed. The first specimen displayed a ductile response with the damage concentrated in the beam. However, in the second specimen, the beam-column joint was severely damaged while the rest of the members did not attain their capacities. Depending on the damage type of the specimens, the damaged members were repaired by CFRP wrapping with different configurations. After testing the repaired specimens, it is found that former capacities of the damaged members were mostly recovered by the application of CFRPs on the damaged members.

• 한국강구조학회 논문집
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• 제19권1호
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• pp.117-127
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• 2007

이 연구에서는 기둥에 축방향 하중을 받고 있는 강재 상자단면 접합부의 강도를 이론적 해석적 검토를 통하여 평가하였다. 2층 교각구조에서는 기둥에 작용하고 있는 축방향 하중의 영향으로 T형 접합부 강도가 저하되게 된다. 이러한 현상을 검토하기 위해 비선형 유한요소해석을 수행하였고, 실험결과와의 비교를 통하여 유한요소 해석프로그램 및 해석방법의 타당성을 검증하였다. 강재라멘교각 접합부의 설계변수 중 패널존의 폭-두께비 파라메타와 플랜지와 복부판의 단면적비 및 기둥에 작용하는 축방향 하중의 영향을 비선형 유한요소해석을 통하여 검토하였다. 또한 이 연구에서는 축방향 하중의 증가에 따른 T형 상자단면 접합부의 응력분포를 이용하여 이론적인 강도평가식을 유도하였다. 또한 1층 교각 구조의 상자단면 접합부 강도특성과 비교하였다. 결국, 패널존의 폭-두께비 파라메타와 단면적비의 영향을 고려하여 T형 접합부의 강도평가식을 제안하였다.

• 콘크리트학회논문집
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• 제22권6호
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• pp.741-751
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• 2010

이 연구에서는 프리캐스트 콘크리트(PC) U형 쉘을 사용하는 PC 모멘트 골조의 일부인 보-기둥 내부접합부의 내진성능을 평가하기 위하여 실험연구를 수행하였다. 5개의 PC 보-기둥 내부접합부와 1개의 현장타설 콘크리트 보-기둥 내부접합부를 실물 크기로 제작하여 반복가력 실험을 수행하였다. 주요 변수는 보 주철근비, 보 전단철근 간격, U형 PC쉘과 기둥 모서리의 보강철물 설치 유무이다. 실험 결과, 변수에 관계없이 PC 보-기둥 접합부는 현장타설 콘크리트 보-기둥 접합부와 비교하여 유사한 하중재하능력, 연성능력을 나타냈다. 그러나 주기 하중동안 PC 보-기둥 접합부는 보-기둥 이음부에서 보 주철근의 부착파괴로 인한 미끄러짐 변형과 대각방향의 전단균열로 인하여 심한 강도 저하를 나타냈고, 이로 인해 현장타설 콘크리트 보-기둥 접합부보다 접합부의 강성과 에너지소산능력이 감소되었다.

• 한국지진공학회논문집
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• 제11권6호
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• pp.63-68
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• 2007

이 연구에서는 새로운 접합장치인 자동체결장치(Self-Locking Connectors)를 사용한 강재보-PC기둥 접합부의 내진성능에 대한 연구를 수행하였다. PC기둥(또는 합성기둥)과 강재보로 이루어진 합성모멘트골조는 각각의 재료의 장점을 최대한으로 이용한 합리적인 구조형식이다. 그러나 서로 다른 두 재료 사이의 접합에 따른 어려움으로 인해 접합부의 상세가 복잡해지고 제작비가 상승하는 단점을 가지고 있다. 반면에 자동체결장치는 쐐기의 원리를 이용한 접합장치로서 시공이 단순한 장점이 있다. 또한 자동체결장치를 사용한 접합부는 용접을 사용하지 않음으로써 기존의 접합부에 비해 내진성능을 개선할 수 있다. 본 연구에서는 자동체결장치를 사용한 강재보-PC기둥(또는 합성기둥) 접합부에 대한 내진성능을 검증하기 위해 반복하중 실험을 수행하였다. 실험결과 자동체결장치를 사용한 보-기둥 접합부는 우수한 내진성능을 발휘할 수 있는 것으로 나타났다.

• 한국전산구조공학회:학술대회논문집
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• 한국전산구조공학회 1996년도 가을 학술발표회 논문집
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• pp.230-238
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• 1996

Recently, square hollow section (S.H.S) is frequently used for column and H-section for beam of steel building structures. The connection between S.H.S column and H-beam is found to weaken the rotational restraint of the joint. Several types of detail to overcome the problem have been suggested for the connection between concrete filled S.H.S column and concrete composited H-bean In this paper, modelling technique to monitor the behavior of the connections is proposed. Then, Drucker-Prager yield criteria is introduced to simulate yield behavior of in-fill concrete while Von-Mises was used in earlier works. Gap-elements are also introduced to simulate the interaction between S.H.S columns and the in-fill concrete as in privious papers. axial forces are applied to S.H.S columns and made to vary in intensity and eccentricity.

• 한국강구조학회 논문집
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• 제12권4호통권47호
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• pp.437-443
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• 2000

콘크리트 충전각형강관 기둥-보 핀접합부를 대상으로 접합부의 회전강성, 전단내력 등 역학적 특성을 규명하기 위하여 실험을 수행하였다. 실험변수는 강관기둥의 폭-두께비 및 강관 내부의 수평 다이어프램, 슬래브 설치 유무이다. 기둥의 폭-두께비가 큰 시험체가 폭-두께비가 작은 시험체에 비하여 접합부의 회전강성이 낮으며, 변형도 접합부에 집중되어 발생한다.

• 한국안전학회지
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• 제17권2호
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• pp.76-84
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• 2002

The seismic behaviors of steel moment connections with different structural characteristics are investigated. The rupture index, which represents the fracture potential, is adopted to study the effect of concrete slab and the relative strength between the coin the beam, and Panel zone on the ductility of connections. The results show that the presence of slab increases the beam strength, imposes constraint near the beam top flange, and consequently, induces concentrated deformation near the beam access hall, which reduces the ductility of the connection. The total deformation capacity of the connection depends not only on the beam but also on the column and panel zone. Therefore, the detrimental slab effects and the relative strength should be considered in the seismic design of the connection.

• Structural Engineering and Mechanics
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• 제46권6호
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• pp.809-825
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• 2013

In the present study, in reinforced concrete structures, beam-column connections are one of the most critical regions in areas with seismic susceptibility. Proper anchorage of reinforcement is vital to enhance the performance of beam-column joints. Congestion of reinforcement and construction difficulties are reported frequently while using conventional reinforcement detailing in beam-column joints of reinforced concrete structures. An effort has been made to study and evaluate the performance of beam-column joints with joint detailing as per ACI-352 (mechanical anchorage), ACI-318 (conventional hooks bent) and IS-456(full anchorage conventional hooks bent) along with confinement as per IS-13920 and without confinement. Apart from finding solutions for these problems, significant improvements in seismic performance, ductility and strength were observed while using mechanical anchorage in combination with X-cross bars for less seismic prone areas and X-cross bar plus hair clip joint reinforcement for higher seismic prone areas. To evaluate the performances of these types of anchorages and joint details, the specimens were assembled into four groups, each group having three specimens have been tested under reversal loading and the results are presented in this paper.

• Structural Engineering and Mechanics
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• 제68권4호
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• pp.475-483
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• 2018

Square tubular columns are commonly used in moment resisting frames, while through-diaphragm connection is the most typical configuration detail to connect the H-shaped beam to the column. However, brittle fracture normally occurs at the complete joint penetration weld between the beam flange and the through-diaphragm due to the stress concentration caused by the geometrical discontinuity. Accordingly, three improved types of through-diaphragm are presented in this paper to provide smooth force flow path comparing to that of conventional connections. Tensile tests were conducted on four specimens and the results were analyzed in terms of failure modes, load-displacement response, yield and ultimate capacity, and initial stiffness. Furthermore, strain distributions on the through-diaphragm, the beam flange plate, and the column face were comprehensively evaluated and discussed. It was found that all the proposed three types of improved through-diaphragm connections were able to reduce the stress concentration in the welds between the beam flange and the through-diaphragm. Furthermore, the stress distribution in connection with longer tapered through-diaphragm was more uniform.

• Steel and Composite Structures
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• 제23권4호
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• pp.421-433
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• 2017

Experimental and numerical studies of a newly developed Reduced Beam Section (RBS) connection, called Tubular Web RBS connection (TW-RBS) have been recently conducted. This paper presents experimental and numerical results of extending the plastic hinge length on the beam flange to increase energy dissipation of a proposed version of the TW-RBS connection with two pipes, (TW-RBS(II)), made by replacing a part of flat web with two steel tubular web at the desirable location of the beam plastic hinge. Two deep-beam specimens with two pipes are prepared and tested under cyclic loads. Obtained results reveal that the TW-RBS(II) like its type I, increases story drift capacity up to 6% in deep beam much more than that stipulated by the current seismic codes. Based on test results, the proposed TW-RBS(II) helps to dissipate imposed energy up to 30% more than that of the TW-RBS(I) specimens at the same story drift and also reduces demands at the beam-to-column connection up to 30% by increasing plastic hinge length on the beam flange. The TW-RBS(II) specimens are finally simulated using finite element method showing good agreement with experimental results.