• 콘크리트학회논문집
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• 제15권6호
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• pp.894-901
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• 2003

본 연구의 목적은 비내진 상세를 가진 RC 구조물의 이력거동 특성과 내진성능 및 특성을 알아보기 위한 것이다. 이를 위해 10층 RC구조물의 내 외부 접합부를 선정하여 슬래브의 유무, 접합부내에서의 전단철근 유무, 외부 접합부의 보 하부 주근의 정착방향에 따라 6개의 1/3 축소 실험체를 만들어 반복횡하중 실험을 수행하였다. 실험결과 내부 접합부의 경우 슬래브의 유무에 관계없이 내진 비내진 상세의 상이에 따른 강도나 연성 능력의 변화는 크지 않는 것으로 나타났고, 외부 접합부의 경우 내부 접합부와는 달리 접합부 전단 보강근의 유무뿐만 아니라 하단 주철근 정착방향에서도 차이가 나기 때문에 비내진 상세의 강도나 연성 능력이 각각 10∼20%와 27% 정도 작은 것으로 나타났다. 또, 비내진 상세를 가지는 경우 국부 변형이 한 곳에서 집중되어 크게 나타남을 알 수 있으며, 슬래브가 있음으로 인해 휨에 의한 회전각을 억제하고 상향 전단변형을 억제하는 것으로 나타났다. 한편 보-기둥 접합부에서의 전단 보강근은 전단변형률에 거의 영향을 끼치지 않는 것으로 나타났다.

• Steel and Composite Structures
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• 제26권6호
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• pp.745-757
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• 2018

The inclusion of a ductile steel bracing as means of repairing an earthquake-damaged bridge bent is evaluated and experimentally assessed for the purposes of restoring the damaged bent's strength and stiffness and further improving the energy dissipation capacity. The study is focused on substandard reinforced concrete multi-column bridge bents constructed in the 1950 to mid-1970 in the United States. These types of bents have numerous deficiencies making them susceptible to seismic damage. Large-scale experiments were used on a two-column reinforced concrete bent to impose considerable damage of the bent through increasing amplitude cyclic deformations. The damaged bent was then repaired by installing a ductile fuse steel brace in the form of a buckling-restrained brace in a diagonal configuration between the columns and using post-tensioned rods to strengthen the cap beam. The brace was secured to the bent using steel gusset plate brackets and post-installed adhesive anchors. The repaired bent was then subjected to increasing amplitude cyclic deformations to reassess the bent performance. A subassemblage test of a nominally identical steel brace was also conducted in an effort to quantify and isolate the ductile fuse behavior. The experimental data from these large-scale experiments were analyzed in terms of the hysteretic response, observed damage, internal member loads, as well as the overall stiffness and energy dissipation characteristics. The results of this study demonstrated the effectiveness of utilizing ductile steel bracing for restoring the bent and preventing further damage to the columns and cap beams while also improving the stiffness and energy dissipation characteristics.

• 콘크리트학회지
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• 제8권2호
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• pp.139-150
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• 1996

본 연구의 목적은 프리캐스트 콘크리트(PC) 대형판 구조물의 축소모델 제작 및 실험기법에 관한 정보을 제공하는 것이다. 적용된 축소율은 1/5이며, 4가지의 실험이 수행되었다. : 모델 콘크리트와 모델 철근의 재료실험, 수평접합부의 압축실험, 수직접합부의 전단실험, 2층 부분구조물의 정적 주기 실험, 이들 실험결과를 기초로 다음의 결론을 도출하였다. : (1)모델 콘크리트는 일반적으로 예상보다 압축강도가 크게 나타났다. (2)모델 철근은 진공관을 사용하지 않고 열처리를 할 경우 연성의 저하를 보인다. (3)수평접합부와 수직접합부의 파괴모드는 실물크기와 모델이 거의 유사하였으나. 모델의 강도는 상사법칙에 의한 요구강도보다 크게 나타났다. (4) 실물크기와 유사하게 모델철근의 연성과 모델 콘크리트의 압축강도를 확보할 수 있다면, 1/5모델 부분구조물의 이력거동은 실물크리와 매우 근접되게 나타낼 수 있다.

• 콘크리트학회지
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• 제8권6호
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• pp.183-193
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• 1996

내진상세를 가진 2경간 2층 모멘트 저항 철근콘크리트 평면구조물을 설계하고 상사법칙에 근거하여 1/2.5 크기의 구조물과 1/10 축소모델을 제작하였다. 다음, 이 구조물에 변위 조절하에서 반복횡하중 실험을 실시하였다. 이들 실험결과에 근거하여 강도, 강성, 에너지 소산능력, 파괴모드, 국부변형등과 같은 구조적 거동 특성을 상사성의 관점에서 비교하였다. 이 결과를 근거로 하여 다음과 같은 결론을 얻었다. ; (1)1/10 축소모델에서의 강도는 1/2.5구조물의 강도와 매우 유사하였다. (2)1/10축소모델의 초기 강성은 대략 1/2.5구조물의 초기 강성의 2/3 정도로 나타났다. (3)1/10축소모델은 1/2.5 구조물 보다 더 작은 에너지 소산능력을 나타내었다. (4) 1/2.5구조물과 1/10축소모델의 비탄성 붕괴 메카니즘이 약간의 차이를 나타내고 있다.

• Earthquakes and Structures
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• 제17권1호
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• pp.115-129
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• 2019

The effectiveness of an innovative method for the earthquake-resistant rehabilitation of existing poorly detailed reinforced concrete (RC) structures is experimentally investigated herein. Eight column subassemblages were subjected to earthquake-type loading and their hysteretic behaviour was evaluated. Four of the specimens were identical and representative of columns found in RC structures designed in the 1950s-70s period for gravity load only. These original specimens were subjected to cyclic lateral deformations and developed brittle failure mechanisms. Three of the damaged specimens were subsequently retrofitted with innovative high-strength steel fiber-reinforced concrete (HSSFC) jackets. The main variables examined were the jacket width and the contribution of mesh steel reinforcement in the seismic performance of the enhanced columns. The influence of steel fiber volume fraction was also examined using test results of a previous work of Tsonos et al. (2017). The fourth earthquake damaged subassemblage was strengthened with a conventional RC jacket and was subjected to the same lateral displacement history as the other three retrofitted columns. The seismic behaviour of the subassemblages strengthened according to the proposed retrofit scheme was evaluated with respect to that of the original specimens and that of the column strengthened with the conventional RC jacket. Test results clearly demonstrated that the HSSFC jackets effectively prevented the development of shear failure mechanisms, while ensuring a ductile seismic response similar to that of the subassemblage retrofitted with the conventional RC jacket. Ultimately, an indisputable superiority in the overall seismic performance of the strengthened columns was achieved with respect to the original specimens.

• Structural Engineering and Mechanics
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• 제52권2호
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• pp.291-306
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• 2014

In this paper the progressive collapse resisting capacity of steel moment frames with MR dampers is evaluated, and a preliminary design procedure for the dampers to prevent progressive collapse is suggested. Parametric studies are carried out using a beam-column subassemblage with varying natural period, yield strength, and damper force. Then the progressive collapse potentials of 15-story steel moment frames installed with MR dampers are evaluated by nonlinear dynamic analysis. The analysis results of the model structures showed that the MR dampers are effective in preventing progressive collapse of framed structures subjected to sudden loss of a first story column. The effectiveness is more noticeable in the structure with larger vertical deflection subjected to larger inelastic deformation. The maximum responses of the structure installed with the MR dampers designed to meet a given target dynamic response factor generally coincided well with the target value on the conservative side.

• 한국전산구조공학회:학술대회논문집
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• 한국전산구조공학회 1994년도 가을 학술발표회 논문집
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• pp.113-120
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• 1994

Large Concrete Panel Structures behave quite differently from frame or monolithic shear wall structures because of the weakness of Joint in stiffness and strength. The joint experiences large deformation such as shear-slip in vertical and horizontal joint and rocking and crushing in horizontal joint because of localized stress concentration, but the wall panels behave elastically under cyclic loads. In order to describe the nonlinear behavior of the joint in the analysis of PC structures, different analysis technique from that of RC structures is needed. In this paper, for analysis of large concrete panel subassemblage subjected to cyclic loads, the wall panels are idealized by elastic finite elements, and the joints by nonlinear spring elements with various load-deflection relationship. The analytical results are compared with the experimental results on the strength, stiffness, energy dissipation and lateral drift, and the effectiveness of this computer analysis modelling technique is checked.

• 한국콘크리트학회:학술대회논문집
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• 한국콘크리트학회 1998년도 봄 학술발표회논문집(II)
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• pp.481-486
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• 1998

In this paper, elastic and inelastic behavior of exterior joint of moment-resisting R.C frame with non-seismic detail subjected to reversed cyclic lateral load such as earthquake excitations was investigated. 1/2-scals subassemblage exterior beam-column joint including slab was manufactured based on similitude law. Then, pseudo static test under the displacement control was performed. The results of 1)crack pattern and failure mode, 2)degradation stiffness and strength, energy dissipation capacity from load-displacement hysteresis curve, 3)strain of steel were analysed.

• 한국콘크리트학회:학술대회논문집
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• 한국콘크리트학회 2001년도 가을 학술발표회 논문집
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• pp.179-184
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• 2001

The objective of this study is to clarify the seismic capacity and the characteristics in the hysteretic behavior of RC structures with nonseismic detailing. To do this, an exterior beam-column subassemblage was selected from a 10-story RC building and 6 1/3-scale specimens were manufactured with 3 variables; ⑴ with and without slab, ⑵ upward and downward direction of anchorage for the bottom bar in beams, and ⑶ with and without hoop bars in the joint region. The test results have shown that ⑴ the existence of slab increased the strength in positive and negative moment, 25% and 62%, respectively; ⑵ the Korean practice of anchorage (downward and 25 $d_{b}$ anchorage length) caused the 8% reduction of strength and the early strength degradation when compared with the case of seismic details; and ⑶ the existence of hoop bars in the joint region does not show significant difference because the size of column is much larger than that of beam.m.

• Steel and Composite Structures
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• 제13권5호
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• pp.423-436
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• 2012

In this study total of six buckling-restrained braces (BRBs) were manufactured using a square steel rod as a load-resisting core member and a hollow steel tube as restrainer to prevent global buckling of the core. The gap between the core and the tube was filled with steel rods as filler material. The performances of the proposed BRB from uniaxial and subassemblage tests were compared with those of the specimens filled with mortar. The test results showed that the performance of the BRB with discontinuous steel rods as filler material was not satisfactory, whereas the BRBs with continuous steel rods as filler material showed good performance when the external tubes were strong enough against buckling. It was observed that the buckling strength of the external tube of the BRBs filled with steel rods needs to be at least twice as high as that of the BRBs filled with mortar to ensure high cumulative plastic deformation of the BRB.