| Summary: | 碩士 === 中國文化大學 === 建築及都市計畫研究所 === 97 === Taiwan is located on boundary between Circum-Pacific seismic belt 、Eurasian Plate and Philippine Plate. The seismic design of reinforced concrete building in Taiwan usually used the strength and toughness of construction to resist the seismic. After Gi-Gi earthquake, the architecture trades bring in the isolation system and the energy dissipation device which are two kinds of new seismic resistant techniques. There are increasing number of energy dissipation system buildings and isolation system buildings. It is too hard to choose the system that we should use if we don’t know the benefit of all kinds of system.
The research using the lower-rise RC building (one to three floor, this research used three floor to be the case study )、middle-rise RC building(four to eleven floor, this research used seven floor to be the case study) and high RC building(twelve to fifteen floor, this research used thirteen floor to be the case study) to be the analysis model, and analysis fundamental period、story displacement、shear force of each story 、top-level acceleration and drift angle of energy dissipation design building and isolation design building by ETABS computer programs. According to the analysis data to compare the seismic response of RC buildings implemented with different seismic design.
1. Analysis of seismic response of lower-rise building implements with the energy dissipation device and the seismic Isolator.
2. Analysis of seismic response of middle-rise building implements with the energy dissipation device and the seismic Isolator.
3. Analysis of seismic response of high building implements with the energy dissipation device and the seismic Isolator.
4. Comparison the seismic response of retrofit the reinforced concrete building between implement with the seismic Isolator and the energy dissipation device.
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