• 한국지진공학회논문집
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• 제11권4호
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• pp.53-63
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• 2007

Seismic design codes are developed mainly based on the observation of the behavior of structures in the high seismicity regions where structures may experience significant amount of inelastic deformations and major earthquakes may result in structural damages in a vast area. Therefore, seismic loads are reduced in current design codes for building structures using response modification factors which depend on the ductility capacity and overstrength of a structural system. However, structures in low seismicity regions, subjected to a minor earthquake, will behave almost elastically because of the larger overstrength of structures in low seismicity regions such as Korea. Structures in low seismicity regions may have longer periods since they are designed to smaller seismic loads and main target of design will be minor or moderate earthquakes occurring nearby. Ground accelerations recorded at stations near the epicenter may have somewhat different response spectra from those of distant station records. Therefore, it is necessary to verify if the seismic design methods based on high seismicity would he applicable to low seismicity regions. In this study, the adequacy of design spectra, period estimation and response modification factors are discussed for the seismic design in low seismicity regions. The response modification factors are verified based on the ductility and overstrength of building structures estimated from the farce-displacement relationship. For the same response modification factor, the ductility demand in low seismicity regions may be smaller than that of high seismicity regions because the overstrength of structures may be larger in low seismicity regions. The ductility demands in example structures designed to UBC97 for high, moderate and low seismicity regions were compared. Demands of plastic rotation in connections were much lower in low seismicity regions compared to those of high seismicity regions when the structures are designed with the same response modification factor. Therefore, in low seismicity regions, it would be not required to use connection details with large ductility capacity even for structures designed with a large response modification factor.

• 한국공간구조학회논문집
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• 제11권4호
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• pp.109-119
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• 2011

현재까지 스마트 면진시스템은 일본이냐 미국 같은 강진지역에서 개발되고 적용되어 왔다. 이렇게 강진지역에 있는 건축물을 지진하중으로부터 보호하기 위하여 개발된 스마트 면진시스템은 우리니라와 같은 중약진 지역에 있는 건축물에 그대로 적용되기에는 많은 한계점이 있다. 따라서 본 연구에서는 강진지역에 건설되는 건축물을 위한 스마트 면진시스템을 중약진 지역에 건설되는 건축물에 작용하였을 때 발생하는 문제점음 검토해보았다. 이를 위하여 예제구조물로 대공간 아치구조물을 선택하였고 스마트 면전시스템은 MR 감쇠기와 저감쇠 탄성베어링을 사용하여 구성하였다. 강진지역과 중약진 지역에서 발생하는 지진하중으로는 기존에 발생한 역사지진을 바탕으로 인공지진을 생성하였다. 수치해석결과 강진지역에 건설되는 대공간구조물을 위하여 개발된 스마트 면진시스템을 그대로 중약진 지역에 적용하면 면진효과가 상당히 줄어들므로 스마트 제어장지의 용량이 중약진 지역에 맞추어 주의 깊게 설계되어야 함을 알 수 있었다.

• Earthquakes and Structures
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• 제15권1호
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• pp.45-65
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• 2018

Over the last three decades, Performance-based Earthquake Engineering (PBEE) has been mainly developed for high seismicity regions. Although information is abundant for PBEE throughout the world, the application of PBEE to lower-seismicity regions, such as those where the magnitude of the maximum considered earthquake (MCE) is less than 6.5, is not always straightforward because some portions of PBEE may not be appropriate for such regions due to geological differences between high- and low-seismicity regions. This paper presents a brief review of state-of-art PBEE methodologies and introduces the seismic hazard of lower-seismicity regions, including those of the Korean Peninsula, with their unique characteristics. With this seismic hazard, representative low-rise RC MRF structures and high-rise RC wall residential structures are evaluated using PBEE. Also, the range of the forces and deformations of the representative building structures under the design earthquake (DE) and the MCE of South Korea are presented. These reviews are used to propose some ideas to improve the practice of state-of-art PBEE in lower-seismicity regions.

• 한국지진공학회논문집
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• 제10권3호
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• pp.57-64
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• 2006

현행 약진지역의 내진설계기준은 주로 강진지역에서의 연구결과에 근거하고 있다. 하지만, 약진지역의 경우 지진하중보다는 중력하중이나 풍하중에 의해 구조설계가 지배되므로 구조물의 초과강도가 강진지역의 경우보다 증가하게 된다. 따라서 약진지역에 적합한 내진설계기준을 마련하기 위해서는 강진지역에 적용되는 반응수정계수를 약진지역에 그대로 적용할 수 있는지에 대한 검증이 필요하다. 본 연구에서는 건축구조물에 대한 소성해석을 통해 그 연성도와 초과강도를 산정하고 이에 근거하여 현행 반응수정계수의 적절성 여부를 검토하였다. 강진, 중진, 약진지역 등에서의 초과강도와 연성요구도를 비교하기 위하여 UBC-97에 근거하여 설계된 예제구조물을 선정하여 해석을 수행하였다. 해석결과에 의하면 약진지역의 초과강도가 강진지역보다 크기 때문에 동일한 반응수정계수에 대한 약진지역의 연성요구도는 강진지역에서보다 적게 된다. 따라서 동일한 반응수정계수를 이용하여 설계된 약진지역 구조물의 경우 접합부에서의 소성회전각 요구량을 강진지역의 경우에 비하여 상대적으로 저감시킬 수 있을 것이다.

• 한국지진공학회논문집
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• 제2권3호
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• pp.99-109
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• 1998

Korea is located in either low of moderate seismicity continental region. It is realized that the design codes and underlying design concept of high seismicity region may not be a, pp.opriate to low and moderate seismicity regions. The aim of this paper is to search seismic design concept that is deemed to be a, pp.opriate to low and moderate seismicity regions. To this end, the seismicity of Korea will be introduce first and important aspects of seismic design in moderate seismicity region will be discussed. The two-level code system that is going to be adopted in the future seismic regulations of Korea will be introduced.

• 한국지진공학회:학술대회논문집
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• 한국지진공학회 1998년도 추계 학술발표회 논문집 Proceedings of EESK Conference-Spring 1998
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• pp.75-84
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• 1998

Korea is located in either low or moderate seismicity continental region. It is realized that design codes and underlying design concepts of high seismicity region may not be appropriate to low or moderate seismicity region. In this paper, test results on the seismic response of structures without seismic detailing are reexamined and compared with numerical analysis results. The seismic design concept based on limited ductility is proposed as an alternative seismic design approach in moderate seismicity regions.

• 한국지진공학회:학술대회논문집
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• 한국지진공학회 2002년도 추계 학술발표회 논문집
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• pp.292-299
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• 2002

It has been realized that the design codes and underlying design concept of high seismicity region may not be appropriate to low and moderate seismicity regions. The aim of this paper is to search seismic design strategies that are appropriate to moderate seismicity regions. The characteristics of seismic hazard in moderate seismicity regions are reviewed. The seismic responses of multi-span continuous bridges subjected to the ground shaking of moderate intensity are examined. The present code on seismic design of bridges is briefly reviewed. Based on these observations, design principles and strategies appropriate to the moderate seismicity regions are proposed for the multi-span continuous bridge

• 한국강구조학회 논문집
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• 제24권3호
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• pp.325-336
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• 2012

강진지역에 있는 건축물을 지진하중으로부터 보호하기 위하여 개발된 스마트 면진시스템은 우리나라와 같은 중약진지역에 있는 건축물에 그대로 적용되기에는 많은 한계점이 있다. 따라서 본 연구에서는 강진지역에 있는 건축물을 위한 스마트 면진시스템을 중약진지역에 건설되는 건축물에 적용하였을 때 발생하는 문제점을 검토해보았다. 또한 이를 토대로 중약진지역에 건설되는 건축물을 위한 스마트 면진시스템의 개발시 고려해야할 사항에 대해 알아보았다. 수치해석을 위한 예제구조물로 5층 건물을 선택하였고 스마트 면진시스템은 MR 감쇠기와 저감쇠 탄성베어링을 사용하여 구성하였다. 강진지역과 중약진지역에서 발생하는 지진하중으로는 기존에 발생한 역사지진을 바탕으로 인공지진을 생성하였다. 수치해석결과 스마트 면진시스템이 우수한 성능을 발휘하는 MR 감쇠기의 용량이 강진지역과 중약진지역에 대하여 크게 다른 것을 알 수 있었다. 또한, 강진지역에 건설되는 구조물을 위하여 개발된 스마트 면진시스템을 그대로 중약진지역에 적용하면 면진효과가 상당히 줄어들므로 스마트 제어장치의 특성을 중약진지역에 맞추어 주의 깊게 설계되어야 함을 알 수 있었다.

• Earthquakes and Structures
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• 제4권6호
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• pp.629-647
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• 2013

Loading protocols have been developed for quasi-static cyclic testing of structures and components. However, it is uncertain if protocols developed for conditions of intense ground shaking in regions of high seismicity would also be applicable to regions of low-moderate seismicity that are remote from the tectonic plate boundaries. This study presents a methodology for developing a quasi-static cyclic displacement loading protocol for experimental bracing evaluation of cold-formed steel stud shear walls. Simulations presented in the paper were based on conditions of moderate ground shaking (in Australia). The methodologies presented are generic in nature and can be applied to other regions of similar seismicity conditions (which include many parts of China, Korea, India and Malaysia). Numerous response time histories including both linear and nonlinear analyses have been generated for selected earthquake scenarios and site classes. Rain-flow cycle counting method has been used for determining the number of cycles at various ranges of normalized displacement amplitude. It is found that the number of displacement cycles of the loading protocol increases with increasing intensity of ground shaking (associated with a longer return period).

• Steel and Composite Structures
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• 제18권1호
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• pp.121-134
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• 2015

This paper is to investigate the potentials of the elastic seismic design of twisted high-rise steel diagrid frame buildings in the strong wind and moderate/low seismicity regions. First, the prototypes of high-rise steel diagrid frames with architectural plans that have a twist angle of 0 (regular-shaped), 1, and 2 degrees were designed to resist wind. Then, the effects of the twist angle on the estimated quantities and structural redundancies of the diagrid frames were examined. Second, the seismic performance of the wind-designed prototype buildings under a low seismicity was evaluated. The response spectrum analysis was conducted for the service level earthquake (SLE) having 43-year return period and the maximum considered earthquake (MCE) having 2475-year return period. The evaluation resulted that the twisted high-rise steel diagrid frames resisted the service level earthquake elastically and most of their diagrid members remained elastic even under the maximum considered earthquake.