论文信息 - Nonlinear natural rubber bearings for seismic isolation

Nonlinear natural rubber bearings for seismic isolation

Abstract This paper summarizes the results of a ten-year joint research program on base isolation carried out by the Malaysian Rubber Producers' Research Association in England and the University of California at Berkeley. Special rubber bearings have been developed which protect buildings and their contents from earthquake damage without requiring additional mechanical devices to enhance damping or to avoid problems of wind movement. The lack of complexity in the system makes prediction of response more certain and reduces cost so that in many designs the additional protection will be achieved at a cost lower than that for conventional protection. The principles of design are explained and results given for the many experimental investigations of the system which have included measurements of the response of both the building and its internal equipment. Practical aspects of the use of the system are discussed with reference to a large structure at present being constructed on nonlinear natural rubber bearings in a highly seismic area.

[1] C. J. Derham,et al. The design and use of rubber bearings for vibration isolation and seismic protection of structures , 1980 .

[2] S. B. Hodder. Computer processing of New Zealand strong-motion accelerograms , 1983 .

[3] A. Gent,et al. Nonlinearity in the Dynamic Properties of Vulcanized Rubber Compounds , 1954 .

[4] A. R. Payne. Study of Carbon Black Structures in Rubber , 1965 .

[5] James M. Kelly,et al. Control of seismic response of piping systems and components in power plants by base isolation , 1980 .

[6] James M. Kelly,et al. Seismic response of torsionally coupled base isolated structures , 1983 .

[7] James M. Kelly,et al. Seismic response of base‐isolated structures with vertical‐rocking coupling , 1984 .

[8] James M. Kelly,et al. An earthquake isolation system for steam generators in nuclear power plants , 1982 .

[9] James M. Kelly,et al. Equipment response spectra for nuclear power plant systems , 1980 .

[10] James M. Kelly,et al. A friction damped base isolation system with fail‐safe characteristics , 1983 .

[11] H. Bolton Seed,et al. Site-dependent spectra for earthquake-resistant design , 1976, Bulletin of the Seismological Society of America.

[12] James M. Kelly,et al. Natural Rubber Foundation Bearings for Earthquake Protection—Experimental Results , 1980 .