INNOVATIVE SEISMIC ISOLATION SYSTEMS FOR BUILDINGS CAPABLE OF FULL SEISMIC ENERGY CONTROL
Presented in this paper are advanced concepts of the two newly developed innovative seismic isolation systems, applicable for efficient seismic protection of different types of building structures. The first (GVCS-HB2) seismic isolation and vibration control system is applicable for seismic protection of High-rise Buildings (with more than 8 stories). This system is named Global-Vibration-Compensating System, and now is in development stage of generation-2. The GVCS-HB2 seismically-resistant building system represent qualitatively new strategy for construction of modern high-rise buildings applying classical and new construction materials and providing simultaneously: (1) Full seismic safety of high-rise buildings, (2) Reduction of construction time, and (3) Profitable construction in seismic and non-seismic areas achieved with special system characteristics. The second seismic isolation system, named Globally Optimized Seismic Energy Balance System (GOSEB-GB3), is applicable as generation-3 (GB3) for seismic protection of all General types of Buildings (up to 8 stories), based on innovative full seismic energy control. This has been achieved by integration of the advantages of seismic isolation system and the new concept of multi-level seismic energy absorption. The GOSEB-GB3 system enables application of a wide range of seismic isolators. In addition, the developed new multi-level seismic energy absorber has extraordinary features as to adapting its behavior to the actual seismic intensity level.
Seismic isolation nonlinear response energy dissipation vibration control damping seismic vulnerability
Danilo Ristic Hirokazu Iemura Jelena Ristic
Professor, Dept. of Engineering Structures, Institute of Earthquake Engineering and Engineering Seis Professor, Kyoto University, School of Civil Engineering, Kyoto, Japan Student, Civil Engineering Faculty, University Ss Cyril and Methodius, Skopje, Macedonia
国际会议
14th World Conference on Earthquake Engineering(第十四届国际地震工程会议)
北京
英文
2008-10-12(万方平台首次上网日期,不代表论文的发表时间)