• 제목/요약/키워드: seismic isolators

검색결과 109건 처리시간 0.02초

쉬어키를 가진 면진건축물의 동적해석 (Dynamic Analysis for Base Isolated Structure with Shear Keys)

  • 한덕전;김태호
    • 한국공간구조학회논문집
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    • 제7권1호
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    • pp.45-53
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    • 2007
  • 지진 다발 지역인 일본에서 최근 초고층 건축물에 전단키를 갖는 면진 구조물에 많이 건설되고 있으며 초고층 건축물은 중저층 건축물과 비교하여 고유진동주수가 크기 때문에 지진하중이 작아 지진에 대한 피해가 적다. 지진에 의하여 큰 전단력이 발생할 경우에 전단키를 갖는 면진장치의 전단키는 파괴되고 면진장치가 지진에 거동하게 되며 만약에 퐁하중이 지진하중보다 크다면 전단키를 지진하중에 대하여 설계하는 것이 아니라 풍하중에 의하여 설계하여야 한다. 중진지역인 한국에서도 면진 건축물에 있어서 전단키의 필요성 요구되며 이에 대한 검증이 필요한 실정이다. 본 논문에서는 5층과 15층 면진 건축물에 대하여 전단키를 적용하고 지진해석을 실시하여 그 거동을 비교분석, 면진 건축물에 대한 전단키의 필요성을 알아보았다.

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변형도 속도효과를 고려한 저온에서의 면진장치 해석모델 (Analytical Modeling of Seismic Isolators at Cold Temperature Considering Strain Rate Effects)

  • 김대곤
    • 한국지진공학회논문집
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    • 제5권4호
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    • pp.97-105
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    • 2001
  • 고무제품에 근간을 둔 면진장치는 상당한 저온효과와 약간의 변형도 속도효과를 보여준다. 면진장치의 비탄성거동에 영향을 미치는 이들의 속성은 면진장치의 거동을 정확히 모델링하기 위해 반드시 고려되어져야 하기 때문에, 고무와 납 모두에 영향을 미치는 저온효과와 변형도 속도효과를 고려할 수 있는 해석모델을 제시하였다. 얼린 면진장치를 일정 수직하중에서 수평방향 반복하중을 가한 실험결과들로부터 시스템 식별(SI : system identification)을 적용하여 해석모델에 필요한 고무와 납의 매개변수들을 구하였다. 제안된 해석모델은 면진장치의 거동을 유사하게 표현할 수 있음을 보여준다.

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Reliability-based design of semi-rigidly connected base-isolated buildings subjected to stochastic near-fault excitations

  • Hadidi, Ali;Azar, Bahman Farahmand;Rafiee, Amin
    • Earthquakes and Structures
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    • 제11권4호
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    • pp.701-721
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    • 2016
  • Base isolation is a well-established passive strategy for seismic response control of buildings. In this paper, an efficient framework is proposed for reliability-based design optimization (RBDO) of isolated buildings subjected to uncertain earthquakes. The framework uses reduced function evaluations method, as an efficient tool for structural reliability analysis, and an efficient optimization algorithm for optimal structural design. The probability of failure is calculated considering excessive base displacement, superstructure inter-storey drifts, member stress ratios and absolute accelerations of floors of the isolated building as failure events. The behavior of rubber bearing isolators is modeled using nonlinear hysteretic model and the variability of future earthquakes is modeled by applying a probabilistic approach. The effects of pulse component of stochastic near-fault ground motions, fixity-factor of semi-rigid beam-to-column connections, values of isolator parameters, earthquake magnitude and epicentral distance on the performance and safety of semi-rigidly connected base-isolated steel framed buildings are studied. Suitable RBDO examples are solved to illustrate the results of investigations.

기초분리된 원전 격납구조물의 무작위 반응해석 (Random Response Analysis of Base Isolated Nuclear Container System)

  • 홍원기;전제성;유광호
    • 전산구조공학
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    • 제7권4호
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    • pp.145-150
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    • 1994
  • 고무받침등을 이용한 기초분리공법은 상부구조물의 고유주기를 기초분리가 되지 않은 구조물보다 길게 하여줌으로써 지진에 의해서 발생하는 밑면 전단력을 감소시키는 원리를 이용하고 있다. 이 원리는 지진지역에 있는 일반 건물구조물에 세계각국에서 성공적으로 사용되고 있으며, 특히 교량구조물에도 그 역할이 입증되어 미국, 일본 등을 중심으로 적용이 급증하고 있다. 본 논문은 동일한 원리를 우리나라에서 건설되고 있는 원전구조물에 적용하여 기초분리된 원전 격납구조물의 거동을 고찰하고자 한다. 이와 같은 거동해석을 실시하는데 있어서, 시간영역 해석은 많은 시간과 경비를 요하게 되어 현실적으로 사용하기에 여러 어려움이 존재하게 되는데 반해, 주파수영역 해석은 이러한 단점을 극복하게 되어 실용적이며 효과적인 결과를 제공하게 된다. 즉, 입력 지진파에 의한 기초분리 원전 격납구조물의 거동을 예측함에 있어서 시스템 복소주파 응답함수 및 지진파의 파워스펙트럼 계산을 통하여 보다 합리적인 접근이 가능함을 보이고자 한다.

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On component isolation of conceptual advanced reactors

  • Shrestha, Samyog;Kurt, Efe G.;Prakash, Arun;Irfanoglu, Ayhan
    • Nuclear Engineering and Technology
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    • 제54권8호
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    • pp.2974-2988
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    • 2022
  • Implementation of component isolation in nuclear industry is challenging due to gaps in research and the lack of specific guidelines. In this study, parameters affecting component-level isolation of advanced reactor vessels are identified based on a representative numerical model with explicit consideration of nonlinear soil-structure interaction (SSI). The objective of this study is to evaluate the effectiveness of, and to identify potential limitations of using conventional friction pendulum bearings to seismically isolate vessels. It is found that slender vessels or components are particularly vulnerable to rotational accelerations at the isolation interface, which are caused by rotation of the sub-structure and by excitation of higher modes in the horizontal direction of the seismically isolated system. Component isolation is found to be more effective for relatively stiffer vessels and at sites with stiff soil. Considering that conventional isolators are deficient in resisting axial tension, it is observed that the optimum location for supporting a component to achieve seismic isolation, is at a cross-sectional plane passing through the center of mass of the vessel. These findings are corroborated by numerous simulations of the response of seismically isolated reactor vessels at different nuclear power plant sites subject to a variety of ground motions.

면진된 전단 거동 구조물의 층응답스펙트럼에 대한 편심효과 (In-Structure Response Spectra of Seismically Isolated Shear Buildings Considering Eccentricity Effect)

  • 이승재;김정한
    • 한국지진공학회논문집
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    • 제28권1호
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    • pp.1-10
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    • 2024
  • For important structures such as nuclear power plants, In-Structure Response Spectrum (ISRS) analysis is essential because it evaluates the safety of equipment and components installed in the structure. Because most structures are asymmetric, the response can be affected by eccentricity. In the case of seismically isolated structures, this effect can be greater due to the difference between the center of mass of the structure and the center of rigidity of the isolator layer. Therefore, eccentricity effects must be considered when designing or evaluating the ISRS of seismically isolated structures. This study investigated the change of the ISRS of an isolated structure by assuming accidental eccentricity. The variables that affect the ISRS of the isolated structure were analyzed to see what additional impact they had due to eccentricity. The ISRS of the seismically isolated structure with eccentricity was amplified more than when there was non-eccentricity, and it was boosted more significantly in specific period ranges depending on the isolator's initial stiffness and seismic intensity. Finally, whether the displacement requirement of isolators can be applied to the variation of the ISRS due to eccentricity in the design code was also examined.

Real-time hybrid substructuring of a base isolated building considering robust stability and performance analysis

  • Avci, Muammer;Botelho, Rui M.;Christenson, Richard
    • Smart Structures and Systems
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    • 제25권2호
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    • pp.155-167
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    • 2020
  • This paper demonstrates a real-time hybrid substructuring (RTHS) shake table test to evaluate the seismic performance of a base isolated building. Since RTHS involves a feedback loop in the test implementation, the frequency dependent magnitude and inherent time delay of the actuator dynamics can introduce inaccuracy and instability. The paper presents a robust stability and performance analysis method for the RTHS test. The robust stability method involves casting the actuator dynamics as a multiplicative uncertainty and applying the small gain theorem to derive the sufficient conditions for robust stability and performance. The attractive feature of this robust stability and performance analysis method is that it accommodates linearized modeled or measured frequency response functions for both the physical substructure and actuator dynamics. Significant experimental research has been conducted on base isolators and dampers toward developing high fidelity numerical models. Shake table testing, where the building superstructure is tested while the isolation layer is numerically modeled, can allow for a range of isolation strategies to be examined for a single shake table experiment. Further, recent concerns in base isolation for long period, long duration earthquakes necessitate adding damping at the isolation layer, which can allow higher frequency energy to be transmitted into the superstructure and can result in damage to structural and nonstructural components that can be difficult to numerically model and accurately predict. As such, physical testing of the superstructure while numerically modeling the isolation layer may be desired. The RTHS approach has been previously proposed for base isolated buildings, however, to date it has not been conducted on a base isolated structure isolated at the ground level and where the isolation layer itself is numerically simulated. This configuration provides multiple challenges in the RTHS stability associated with higher physical substructure frequencies and a low numerical to physical mass ratio. This paper demonstrates a base isolated RTHS test and the robust stability and performance analysis necessary to ensure the stability and accuracy. The tests consist of a scaled idealized 4-story superstructure building model placed directly onto a shake table and the isolation layer simulated in MATLAB/Simulink using a dSpace real-time controller.

Nonlinear response of r.c. framed buildings retrofitted by different base-isolation systems under horizontal and vertical components of near-fault earthquakes

  • Mazza, Fabio;Mazza, Mirko;Vulcano, Alfonso
    • Earthquakes and Structures
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    • 제12권1호
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    • pp.135-144
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    • 2017
  • Near-fault ground motions are characterized by high values of the ratio between the peak of vertical and horizontal ground accelerations, which can significantly affect the nonlinear response of a base-isolated structure. To check the effectiveness of different base-isolation systems for retrofitting a r.c. framed structure located in a near-fault area, a numerical investigation is carried out analyzing the nonlinear dynamic response of the fixed-base and isolated structures. For this purpose, a six-storey r.c. framed building is supposed to be retrofitted by insertion of an isolation system at the base for attaining performance levels imposed by current Italian code in a high-risk seismic zone. In particular, elastomeric (e.g., high-damping-laminated-rubber bearings, HDLRBs) and friction (e.g., steel-PTFE sliding bearings, SBs, or friction pendulum bearings, FPBs) isolators are considered, with reference to three cases of base isolation: HDLRBs acting alone (i.e., EBI structures); in-parallel combination of HDLRBs and SBs (i.e., EFBI structures); FPBs acting alone (i.e., FPBI structures). Different values of the stiffness ratio, defined as the ratio between the vertical and horizontal stiffnesses of the HDLRBs, sliding ratio, defined as the global sliding force divided by the maximum sliding force of the SBs, and in-plan distribution of friction coefficient for the FPs are investigated. The EBI, EFBI and FPBI base-isolation systems are designed assuming the same values of the fundamental vibration period and equivalent viscous damping ratio. The nonlinear dynamic analysis is carried out with reference to near-fault earthquakes, selected and scaled on the design hypotheses adopted for the test structures.

MR 감쇠기와 FPS를 이용한 하이브리드 면진장치의 퍼지제어 (Fuzzy control of hybrid base-isolator with magnetorheological damper and friction pendulum system)

  • 김현수
    • 한국지진공학회논문집
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    • 제9권1호통권41호
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    • pp.61-70
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    • 2005
  • 본 연구에서는 하이브리드 면진장치가 설치된 단자유도 구조물에 대하여 진동대 실험을 수행하였다. 본 연구에서 사용된 하이브리드 면진장치는 네 개의 FPS와 한 개의 MR 감쇠기로 구성하였다. 다양한 크기 및 특성을 가진 지진하중을 하이브리드 면진장치가 설치된 구조물에 가하여 진동제어 성능을 평가하였다. 본 연구에는 준능동 MR 감쇠기의 저항력을 효과적으로 조절하기 위하여 퍼지제어기를 사용하였고 구조물에 부착된 계측기를 통하여 변위 및 가속도를 피드백으로 이용한다. 수동 및 준능동 제어기법을 사용하여 얻은 구조물의 응답을 서로 비교하였고 그 결과 FPS와 MR 감쇠기의 조합으로 다양한 특성의 하중을 받는 구조물의 진동제어를 효과적으로 수행할 수 있음을 알 수 있다.