• Journal of the Computational Structural Engineering Institute of Korea
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• v.27 no.3
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• pp.163-172
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• 2014

The purpose of earthquake resistant design for typical bridges is the No Collapse Design and the Earthquake Resistant Design Part of Roadway Bridge Design Code provides a design process to construct the Ductile Failure Mechanism for the bridge structure. However, if it is not practical to provide the Ductile Failure Mechanism due to structure types or site conditions, the Brittle Failure Mechanism is an alternative way to get the No Collapse Design. As well as the existing design process constructing the Ductile Failure Mechanism, the Earthquake Resistant Design Part provides a ductility-based design process as an appendix, which is prepared for bridges with reinforced concrete piers. According to the new design process, designer determines a required response modification factor for substructure and transverse reinforcement for confinement therefrom. In this study, a typical bridge with steel bearing connections and reinforced concrete piers is selected for which the existing as well as the ductility-based design processes are applied and different results from the two design processes are identified. Based on the results, an earthquake resistant design procedure is proposed in which designers should consider the two design processes.

• Journal of the Korea institute for structural maintenance and inspection
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• v.17 no.5
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• pp.136-145
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• 2013

Social interest in the seismic retrofit of the structure is growing massive earthquake that occurred recently. The brittle fracture of Non-seismically designed Columns lead to full collapse of the building. In the past, cross-sectional expansion method, a steel plate reinforcing method is applied mainly in recent years, fiber-reinforced method utilizing the advantages of the composite material are preferred. However, the reinforcement methods such as this, there is a drawback to induce physical damage to structures, and time consuming work space is large. IIn this study, FRP seismic reinforcement was developed using the Aluminum connector and the composite material (Glass Fiber Reinforced Polymer). Then, the optimum quantities of FRP seismic reinforcement was determined using a nonlinear finite element analysis program. Finally, the quantity decision process through the design and analysis of FRP reinforcement was suggested.

• Journal of the Earthquake Engineering Society of Korea
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• v.5 no.2
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• pp.1-11
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• 2001

내진성능평가 시스템은 구조시스템의 합리적인 분류, 적절한 평가 기준, 그리고 종합적인 평가방법을 포함하여야한다. 외국의 현행 내진성능 평가방법은 데이터의 수집과 주요 평가 항목을 위한 약산식 그리고 평가 점수를 이용하여 전문가의 판단에 근거한 평가 방법을 제시하고 있다. 본 연구는 국내 건축구조물에 예비 내진평가 방법에 중점을 두고 퍼지추론 시스템에 근거한 내진평가방법의 전형을 개발한다. 평가항목의 위계는 건무의 수직, 수평방향을 불규칙성, 비대칭성, 여용성, 그리고 건물 연한을 포함한 전체적인 특성과 부재 단계에서의 상세한 평가 항목으로 구성한다. 퍼지추론방법에 대한 기존의 연구결과를 근허가혀 이용한 내진성능 평가방법에 적절히 적용하기 위하여 4가지 주요 모듈을 설정한다. (1) 퍼지 입력 (2) 퍼지에 근거한 규칙기반 (3) 퍼지추론, 그리고 (4) 퍼지출력으로 구성된다. 더욱이 개별적인 성능 수준에 종합적인 평가지수를 끌어내기 위하여 퍼지추론방법을 적용하였다.

• Journal of the Computational Structural Engineering Institute of Korea
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• v.23 no.5
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• pp.543-550
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• 2010

Earthquake resistant design should provide a description of the structural failure mechanism under earthquakes as well as satisfy the requirement of other designs, e.g. design strengths of each structural member should be equal or greater than the required strengths. The reason of such a requirement is the randomness of seimic loads different from other loads. In this study, a typical bridge is selected as an analysis bridge and the procedure is given to get the ductile failure mechanism through connection design. It is shown with the procedure that the earthquake resistant capacity can be ensured within structural member's strengths required by other designs, without cost raise by strength increase of structural members or by use of shock absorbing device e.g. shock transfer unit.

• Proceedings of the Computational Structural Engineering Institute Conference
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• 2010.04a
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• pp.409-412
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• 2010

본 연구는 목조 건축물 흙벽의 수평가력실험 결과를 이용한 내진성능 평가를 목적으로 한다. 흙벽 실험시험체는 기둥과 보 결합방식에 따라 민도리, 초익공, 장여방식으로 분류되고 벽체 형태에 따라 창문, 문, 전면 벽체, 인방 부재수 등으로 계획을 하였다. 12개 흙벽 시험체의 가력결과, 전면 벽체 시험체는 변위각 1/30에서 가장 큰 강성 저하율을 보이며 중인방과 수직재가 있는 벽체는 에너지 소산능력이 가장 큰 것으로 나타났다. 기존 연구로부터 목조 건축물 항복점 평가방법을 이용하여 등가탄소성 곡선으로 나타낸 전단내력은 민도리방식이 프레임과 전면 벽체일 경우 가장 크고, 전단응력은 벽체 개구율에 따라 다르게 나타났다. 실험결과로부터 적용 대상 건축물의 X, Y방향 구조성능을 산출하고 구조내진지표와 역량스펙트럼을 이용하여 내진성능 평가를 실시한 결과, 대상 목조 건축물은 내진성이 있음으로 평가되었다.

• Journal of the Korean Geographical Society
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• v.42 no.3 s.120
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• pp.315-331
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• 2007

Some reverse fault lines are passing through the alluvial fans and west hill slope of Bulguksa mountains including Mt. Toham in the directions of N-S and NW-SE. The study area is known as relatively unstable, because of active faults. Assuming on the record of Samguksagi about earthquakes, the architects in the construction of the Bulguksa Temple should have recognized the possibility of breakdown from the earthquakes and the need for an unique structure against at that time. Against earthquakes, Grengee technique, a stonework construction technique following wooden one and use of Chuduseok(Dongtleseok or Chumchaseok) were applied for the construction of the Bulguksa Temple. By designing the foundation stone with hole, a structure is prevented from modification that pillars secede from a foundation stone in spite of horizontal load of earthquake while wood construction is strong frame at earthquake. The Bulguksa Temple is usually evaluated to be a beautiful architecture from the appearances like the weight balanced structure with unique decoration. Impressive architectures are beautiful in balance and harmony coming from the important and specific rolls in its own way by each part of whole structure. This beauty comes from the science.

• Computational Structural Engineering
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• v.8 no.1
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• pp.19-25
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• 1995

원전 시설물은 만일의 사고시 공공의 안전에 심각한 영향을 미칠 수 있으므로 매우 엄격한 요건과 설계절차를 적용하여 지진과 같이 막대한 피해를 줄 수 있는 자연재해에 대해서도 안전하도록 설계하고 있다. 현재 우리의 내진해석 및 설계 수준은 그동안 꾸준한 기술개발과 15기 이상의 원전의 내진해석 및 설계를 수행하면서 축적한 경험을 통하여 기술자립단계를 넘어 기술의 고도화 단계에 있다. 또한 국내의 원전설계를 위한 규제요건 및 기술기준이 제정되는 중에 있어 멀지 않아 국내 실정에 적합한 독자적인 요건 및 절차가 정립될 수 있을 것이다. 최근 전세계적으로 발생한 지진과 그로 인한 막대한 피해로 인해 국내에서도 지진에 대한 관심이 고조되고 있는 상황이므로 내진설계에 관한 보다 많은 연구를 통해 일반 시설물에 대한 내진설계요건을 보완 강화함으로써 자연재해에 대하여 보다 안전한 사회환경을 조성해야 할 것으로 사료된다.

• Journal of the Korea institute for structural maintenance and inspection
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• v.21 no.2
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• pp.24-33
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• 2017

Domestic urban railway underground station structures, which were built in the 1970s ad 1980s, had been constructed as Cut-and-Cover construction system without seismic design. Because the trends of earthquake occurrence is constantly increasing all over the world as well as the Korean Peninsula, massive human casualties and severe properties and structures damage might be occurred in an non-retrofitted underground station during an earthquake above a certain scale. Therefore, to evaluate the retrofit effect and soil-structure interaction of seismic retrofitted underground station, a centrifugal shaking table test with enhanced stiffness on its structural main member are carried out on 1/60 scaled model using the Kobe and Northridge earthquakes. The seismic retrofitted members, which are columns, side walls, and slabs, are evaluated to comparing with existing non-retrofitted centrifuge test results Also, to simulate the scaled ground using variation of shear velocity according to site conditions such as ground depth and density, resonant column test is performed. From the test results, the relative displacement behavior between ground and structures shows comparatively similar in ground, but is increased on ground surface. The seismic retrofit effects were measured using relative displacements and moment behavior of column and side walls rather than slabs. Additionally, earthquake wave can be used to main design factor due to large structural deformation on Kobe earthquake wave than Norhridge earthquake wave.

• 건축구조
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• v.13 no.3
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• pp.31-40
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• 2006

구조물의비탄성거동을알아내기위한여러가지의지진해석방법중에서비탄성시간이력해석이가장정확한응답을준다고알려져있지만실제내진설계에서이보다더쉽게비탄성거동을근사적으로파악할수있는방법이능력스펙트럼법(Capacity Spectrum Method: CSM)인데여기서는이방법의기본적인원리를소개하기로한다.

• Journal of the Computational Structural Engineering Institute of Korea
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• v.24 no.6
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• pp.707-714
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• 2011

The inter-story drift ratio is used to evaluate the damage of buildings by the earthquake. This is known that as the inter-story drift ratio decreases, the seismic damage decreases. Although to reduce the inter-story drift ratio is the important issue in the seismic design, no practical inter-story drift design method has bean developed. This study presents an optimal inter-story drift design method to improve the seismic performance of the steel moment frames using the resizing algorithm. The objective function of the proposed method is to minimize the differences of the inter-story drift ratios so that the inter-story drift ratios of the building could be distributed evenly and be reduced. Because this method redesigns the sectional properties of structural members base on the displacement participation factor calculated by the unit-load method, this can improve the seismic performance of the structure without the iterative structural analysis. The efficiency of this algorithm was demonstrated by the application to steel moment frames.