Research and development of thick rubber bearing for SFR (Aging properties tests of semi full-scale thick rubber bearing)

A seismic isolation system composed of a thick rubber bearing and an oil damper has been developed for Sodium-Cooled Fast Reactor. One of the advantages of the isolation system is the use of thick rubber bearings to ensure the longer vertical natural period of a plant, thereby mitigating seismic loa...

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Bibliographic Details
Published inKikai Gakkai ronbunshū = Transactions of the Japan Society of Mechanical Engineers Vol. 83; no. 850; p. 16-00444
Main Authors WATAKABE, Tomoyoshi, YAMAMOTO, Tomohiko, FUKASAWA, Tsuyoshi, OKAMURA, Shigeki, SOMAKI, Takahiro, MOROBISHI, Ryota, SAKURAI, Yu, KATO, Kouji
Format Journal Article
LanguageJapanese
English
Published The Japan Society of Mechanical Engineers 2017
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Summary:A seismic isolation system composed of a thick rubber bearing and an oil damper has been developed for Sodium-Cooled Fast Reactor. One of the advantages of the isolation system is the use of thick rubber bearings to ensure the longer vertical natural period of a plant, thereby mitigating seismic loads to mechanical components. Characteristics of thick rubber bearings have been confirmed through a series of tests. This paper focused on the aging properties of thick rubber bearings, such as basic mechanical properties and ultimate strength. An aging test of thick rubber bearings was conducted using 1/2-scale (800 mm diameter) and 1/8-scale (200 mm diameter) rubber bearings. Aging of the rubber bearings was reproduced using thermal degradation based on Arrhenius law, in which the target of aging periods was 60 years, plant life time. The hysteresis loops of the thick rubber bearings after aging were obtained through horizontal and vertical static loading tests, and the effects of aging were evaluated by comparison with the initial mechanical properties. In addition, for the purpose of further research, the effect of scale by aging was clarified to compare the mechanical properties between the 1/2-scale and 1/8-scale rubber bearings.
ISSN:2187-9761
2187-9761
DOI:10.1299/transjsme.16-00444