• Earthquakes and Structures
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• 제24권3호
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• pp.155-163
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• 2023

The purpose of this paper is to investigate the coupled effect of SSI and pounding on dynamic responses of unequal height adjacent buildings with insufficiently separation distance subjected to seismic loading. Numerical investigations were conducted to evaluate effect of the pounding coupling SSI on a Reinforced Concrete Frame Structure system constructed on different soil fields. Adjacent buildings with unequal height, including a 9-storey and a 3-storey reinforced concrete structure, were considered in numerical studies. Pounding force response, time-history and root-mean-square (RMS) of displacement and acceleration with different types of soil and separations were presented. The numerical results indicate that insufficient separation could lead to collisions and generate severe pounding force which could result in acceleration and displacement amplifications. SSI has significant influence of the seismic response of the structures, and higher pounding force were induced by floors with stiffer soil. SSI is reasonable neglected for a structure with a dense soil foundation, whereas SSI should be taken into consideration for dynamic analysis, especially for soft soil base.

• Smart Structures and Systems
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• 제9권4호
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• pp.313-333
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• 2012

Reinforced concrete (RC) framed buildings dissipate the seismic energy through yielding of the reinforcing bars. This yielding jeopardizes the serviceability of these buildings as it results in residual lateral deformations. Superelastic Shape Memory Alloys (SMAs) can recover inelastic strains by stress removal. Since SMA is a costly material, this paper defines the required locations of SMA bars in a typical RC frame to optimize its seismic performance in terms of damage scheme and seismic residual deformations. The intensities of five earthquakes causing failure to a typical RC six-storey building are defined and used to evaluate seven SMA design alternatives.

• 한국지진공학회논문집
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• 제26권5호
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• pp.211-217
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• 2022

New buildings have been designed using different seismic design standards that have been revised. However, the seismic performance of existing buildings is evaluated through the same performance evaluation guidelines. Existing buildings may not satisfy the performance targets suggested in the current guidelines, but there are practical limitations to discriminating the existing buildings with poor seismic performance through a full investigation. In this regard, to classify buildings with poor seismic performance according to the applied standard, this study aimed to evaluate performance-based investigation of the seismic design proposals of buildings with different design standards. The target buildings were set as RC ordinary moment frames for office occupancy. Changes in seismic design criteria by period were analyzed, and the design spectrum changes of reinforced concrete ordinary moment resisting frames were compared to analyze the seismic load acting on the building during design. The seismic design plan was derived through structural analysis of the target model, compared the member force and cross-sectional performance, and a preliminary evaluation of the seismic performance was performed to analyze the performance level through DCR. As a result of the seismic performance analysis through the derived design, the reinforced concrete ordinary moment frame design based on AIK 2000 has an insufficient seismic performance level, so buildings built before 2005 are likely to need seismic reinforcement.

• Structural Engineering and Mechanics
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• 제85권6호
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• pp.793-808
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• 2023

Türkiye is located in a region where destructive earthquakes are frequently experienced due to its geological characteristics and geographical location. Therefore, considering the possibility of a devastating earthquake at any time, determining the reinforced concrete (RC) building seismic safety, constructed before or after the current seismic buildings code, is one of the most important issues to be completed firstly. For this purpose, rapid assessment methods developed to quickly determine the seismic safety of buildings are available in the literature. Comparison of the principles of Principles of the Determination of Risky Structures-2019, Column and Wall Index Method, P25 Scoring Method and Improved Discriminant Analysis Method, which are among these methods, have been aimed within the scope of this study. Within the scope of this paper, a total of 43 buildings in the Yalova/Çınarcık region of Türkiye that the damage level was determined by street observation method immediately after the 1999 Kocaeli (Izmit) Earthquake; 15 buildings with heavy damage and 28 buildings with moderate damage were examined by rapid assessment methods. Although the risk detection difference was not separated as a clear line in any of the methods used, the results obtained from the rapid assessment methods are evaluated as being compatible with the detected after earthquake structural seismic behavior of the buildings. The PDRS-2019 and column and wall index method gave the most approximate results. In the results obtained from the analyzes; structural features such as number of floors, frame continuity, soft/weak story irregularity, effective shear strength area, existence of heavy overhangs in plan, type of structural system have been found to be significantly effective on the earthquake behavior of buildings.

• Structural Engineering and Mechanics
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• 제54권3호
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• pp.545-560
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• 2015

In this paper, blast-induced vibration effects on buildings located in rural areas were investigated. Damages to reinforced concrete, adobe and masonry buildings were evaluated in Çatakk$\ddot{o}pr\ddot{u}$ and Susuz villages in Silvan district of Diyarbakir, Turkey. Blasting of stiff rocks to construct highway at vicinity of the villages damaged the buildings seriously. The most important reason of the damages is lack of engineering services and improper constructed buildings according to the current building design codes. Also, it is determined that, inappropriate blast method and soft soil class increased the damages to the buildings. The study focuses on four points: Blast effect on buildings, soil conditions in villages, building damages and evaluation of damage reasons according to the current Turkish Earthquake Code (TEC).

• Smart Structures and Systems
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• 제6권3호
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• pp.291-307
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• 2010

A specific type of structural damage that would benefit from remote sensing is discussed and a solution is suggested.

• 한국산학기술학회논문지
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• 제21권11호
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• pp.37-43
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• 2020

국내 도로, 철도 등 SOC 시설의 내진보강율은 2017년 기준 96%이며 건축물은 2016년 기준 약 7백만동 중 내진성능이 확보된 건축물은 51만동에 불과하다. 조적조 건축물은 전체 건축물의 38.8%를 차지할 만큼 비중이 크지만 내진성능이 확보된 것은 2.0% 내외로 거의 전무한 실정이다. 이러한 문제를 해결 하기 위해국내에서는 정부차원의 내진 대책이 추진되고 있으나 현재까지 미비한 상황이다. 국외의 캐나다 벤쿠버 UBC 연구팀은 조적조 내진성능 보강을 위해 EDCC를 개발하여 사용하고 있다. EDCC는 섬유혼입으로 콘크리트 연성능력 확보 및 가교작용으로 콘크리트의 변형 저항능력을 확보 할 수 있는 건설재료이다. 그러나 내진성능 확보를 위해 EDCC를 분사형으로 사용하지 않기 때문에 다양한 재료의 검토가 필요하다. 이에 본 연구에서는 조적조의 내구성능 향상을 위한 뿜칠재료 연구개발의 일환으로 내진보강용 섬유보강 모르타르의 분사특성을 평가하고자 하였으며, 섬유보강 모르타르의 섬유사용량에 따른 분사특성 및 증점제 사용량에 따른 점도변화를 검토하였다. 조적조 내진보강용 섬유보강 모르타르의 부착성능 및 시공성능을 검토한 결과 섬유의 사용량은 1%, 증점제의 사용량은 1%로 최적 사용량을 도출할 수 있었다.

• 한국지진공학회논문집
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• 제11권5호
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• pp.61-69
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• 2007

본 연구의 목적은 하부층에 필로티 구조, 상부층에 전단벽식구조를 가진 저층 철근콘크리트 건물의 내진설계 및 내진성능 평가를 위한 기본적인 자료를 제공하는 것으로서, 비선형 지진응답해석을 실시하여 각 층의 내력과 연성율 사이의 상관관계를 파악하여, 이것들의 비율이 건물 전체의 내진성능에 어떻게 영향을 미치는가를 검토하였다. 본 연구에서는 필로티 구조를 가진 저층 철근콘크리트 전단벽식 건물의 특성을 2질점계로 치환하였으며, 하부층인 필로티 구조는 휨파괴형으로 상부층인 전단벽식 구조는 전단파괴형 시스템으로 각각 모델링하였다. 또한 각층의 복원력 특성으로는 필로티 구조는 Degrading Trilinear Model(휨파괴형), 상부층은 Origin Oriented Model(전단파괴형)을 선정하였다. 상기 복원력 특성은 각 층의 보유내력에 의하여 변화를 하며, 지진응답해석용 입력지진파로는 8개의 피해지진의 가속도 성분을 선정하여 이들 가속도 성분의 최대가속도를 0.1g, 0.2g, 0.3g로 표준화 하였다. 각각 지진강도수준에 따라 지진 응답해석을 실시하여 하부층 필로티 구조와 상부층 전단벽식 구조의 내력비와 응답 연성율 사이의 상관관계를 파악하였다. 최종적으로 특정 연성율을 위한 필로티 구조를 가진 저층 철근콘크리트 전단벽식 건물의 요구내력을 산정하여 요구내력 스펙트럼(Required Strength Spectrum)을 제안하였다. 본 연구에서 제안한 요구내력스펙트럼은 특정 지역에서 요구하는 지진수준에 대하여 지진발생시 특정 연성율 이내로 머물게 하는 하한내력의 범위를 파악할 수 있는 등, 연구결과는 필로티 구조를 가진 철근콘크리트 전단벽식 건물의 내진성능평가 및 내진설계의 기본적인 자료로서 활용 가능하다고 사료된다.

• 한국지진공학회논문집
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• 제19권5호
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• pp.219-228
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• 2015

For small-size reinforce-concrete buildings, Midas Gen, OpenSees, and Perform-3D, which are structural analysis programs that are most popularly used at present, were applied for nonlinear static pushover analysis, and then difference between those programs was analyzed. Example buildings were limited to 2-story frames only and frames with one or more rectangular walls. Analysis results showed that there was not much difference for frames only based on capacity curves. There were some differences for frames with rectangular walls, but it was not so significant. The global behaviors represented by the capacity curve were not so different, but the feature of each analysis program appeared when the results were analyzed in more detail. Therefore, the program users should understand the feature of the program well, and then conduct performance assessment. The result of this study is limited to low-story frames only and frames with rectangular walls so that it should be noted that it is possible to get different results for frames with non-rectangular walls or mid- to high-rise buildings.

• Earthquakes and Structures
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• 제8권6호
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• pp.1499-1528
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• 2015

The yielding mechanisms of reinforced concrete (RC) structures are the main cause of the collapse of RC buildings during earthquake excitation. Nowadays, the application of earthquake energy dissipation devices, such as viscous dampers (VDs), is being widely considered to protect RC structures which are designed to withstand severe seismic loads. However, the effect of VDs on the formation of plastic hinges and the yielding criteria of RC members has not been investigated extensively, due to the lack of an analytical model and a numerical means to evaluate the seismic response of structures. Therefore, this paper offers a comprehensive investigation of how damper devices influence the yielding mechanisms of RC buildings subjected to seismic excitation. For this purpose, adapting the Newmark method, a finite element algorithm was developed for the nonlinear dynamic analysis of reinforced concrete buildings equipped with VDs that are subjected to earthquake. A special finite element computer program was codified based on the developed algorithm. Finally, a parametric study was conducted for a three-story RC building equipped with supplementary VD devices, performing a nonlinear analysis in order to evaluate its effect on seismic damage and on the response of the structure. The results of this study showed that implementing VDs substantially changes the mechanism and formation of plastic hinges in RC buildings.