DOI QR코드

DOI QR Code

Vertical distributions of lateral forces on base isolated structures considering higher mode effects

  • Tsai, C.S. (Department of Civil Engineering, Feng Chia University) ;
  • Chen, Wen-Shin (Graduate Institute of Civil and Hydraulic Engineering, Feng Chia University) ;
  • Chen, Bo-Jen (R&D Department, Earthquake Proof System, Inc.) ;
  • Pong, Wen-Shen (School of Engineering, San Francisco State University)
  • 투고 : 2005
  • 심사 : 2006
  • 발행 : 2006.07.30

초록

Base isolation technology has been accepted as a feasible and attractive way in improving seismic resistance of structures. The seismic design of new seismically isolated structures is mainly governed by the Uniform Building Code (UBC-97) published by the International Conference of Building Officials. In the UBC code, the distribution formula of the inertial (or lateral) forces leads to an inverted triangular shape in the vertical direction. It has been found to be too conservative for most isolated structures through experimental, computational and real earthquake examinations. In this paper, four simple and reasonable design formulae, based on the first mode of the base-isolated structures, for the lateral force distribution on isolated structures have been validated by a multiple-bay three-story base-isolated steel structure tested on the shaking table. Moreover, to obtain more accurate results for base-isolated structures in which higher mode contributions are more likely expected during earthquakes, another four inertial force distribution formulae are also proposed to include higher mode effects. Besides the experimental verification through shaking table tests, the vertical distributions of peak accelerations computed by the proposed design formulae are in good agreement with the recorded floor accelerations of the USC University Hospital during the Northridge earthquake.

키워드

과제정보

연구 과제 주관 기관 : National Science Council

참고문헌

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피인용 문헌

  1. Response spectrum analysis for regular base isolated buildings subjected to near fault ground motions vol.43, pp.4, 2006, https://doi.org/10.12989/sem.2012.43.4.527