Shaking Table Tests of Lead Inserted Small-Sized Laminated Rubber Bearing for Nuclear Component Seismic Isolation

To assure seismic isolation performance against design and beyond design basis earthquakes in the nuclear facility components, the lead inserted small-sized laminated rubber bearings (LRB), which has a 10 kN vertical design load, have been designed and quasi-statically tested to validate their desig...

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Main Authors: Gyeong-Hoi Koo, Tae-Myung Shin, Sang-Jin Ma
Format: Article
Language:English
Published: MDPI AG 2021-05-01
Series:Applied Sciences
Subjects:
Online Access:https://www.mdpi.com/2076-3417/11/10/4431
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spelling doaj-31ad0de2fb864fa2987bee837c9c33692021-05-31T23:57:41ZengMDPI AGApplied Sciences2076-34172021-05-01114431443110.3390/app11104431Shaking Table Tests of Lead Inserted Small-Sized Laminated Rubber Bearing for Nuclear Component Seismic IsolationGyeong-Hoi Koo0Tae-Myung Shin1Sang-Jin Ma2Korea Atomic Energy Research Institute, Daejeon 305-353, KoreaSchool of Mechanical, Automotive and Aeronautical Engineering, Korea National University of Transportation, Chungju 27469, KoreaSchool of Mechanical, Automotive and Aeronautical Engineering, Korea National University of Transportation, Chungju 27469, KoreaTo assure seismic isolation performance against design and beyond design basis earthquakes in the nuclear facility components, the lead inserted small-sized laminated rubber bearings (LRB), which has a 10 kN vertical design load, have been designed and quasi-statically tested to validate their design mechanical properties in previous studies. Following this study, the seismic shaking tests of these full-scale LRBs are performed and discussed in this paper with the dummy mass system to investigate actual seismic isolation performance, dynamic characteristics of LRBs, consistency of the LRB’s quality, and so on. To study the seismic isolation performance, three beam structures (S1–S3) with different natural frequencies were installed both on the shaking table and the dummy mass supported by four LRBs: (1) S1: structure close to seismic isolation frequency; (2) S2: structure close to peak input spectral frequency; (3) S3: structure in the high-frequency region. The test results are described in various seismic levels of OBE (Operating Basis Earthquake), SSE (Safe Shutdown Earthquake), and BDBE (Beyond Design Basis Earthquake), and are compared with the analysis results to assure the seismic isolation performance and the LRB’s design parameters. From the results of the shaking table tests, it is confirmed that the lead inserted small-sized LRBs reveal an adequate seismic isolation performance and their dynamic characteristics as intended in the LRB design.https://www.mdpi.com/2076-3417/11/10/4431seismic isolationlaminated rubber bearinglead rubber bearingshaking table testnuclear facility componentbeyond design basis earthquake
collection DOAJ
language English
format Article
sources DOAJ
author Gyeong-Hoi Koo
Tae-Myung Shin
Sang-Jin Ma
spellingShingle Gyeong-Hoi Koo
Tae-Myung Shin
Sang-Jin Ma
Shaking Table Tests of Lead Inserted Small-Sized Laminated Rubber Bearing for Nuclear Component Seismic Isolation
Applied Sciences
seismic isolation
laminated rubber bearing
lead rubber bearing
shaking table test
nuclear facility component
beyond design basis earthquake
author_facet Gyeong-Hoi Koo
Tae-Myung Shin
Sang-Jin Ma
author_sort Gyeong-Hoi Koo
title Shaking Table Tests of Lead Inserted Small-Sized Laminated Rubber Bearing for Nuclear Component Seismic Isolation
title_short Shaking Table Tests of Lead Inserted Small-Sized Laminated Rubber Bearing for Nuclear Component Seismic Isolation
title_full Shaking Table Tests of Lead Inserted Small-Sized Laminated Rubber Bearing for Nuclear Component Seismic Isolation
title_fullStr Shaking Table Tests of Lead Inserted Small-Sized Laminated Rubber Bearing for Nuclear Component Seismic Isolation
title_full_unstemmed Shaking Table Tests of Lead Inserted Small-Sized Laminated Rubber Bearing for Nuclear Component Seismic Isolation
title_sort shaking table tests of lead inserted small-sized laminated rubber bearing for nuclear component seismic isolation
publisher MDPI AG
series Applied Sciences
issn 2076-3417
publishDate 2021-05-01
description To assure seismic isolation performance against design and beyond design basis earthquakes in the nuclear facility components, the lead inserted small-sized laminated rubber bearings (LRB), which has a 10 kN vertical design load, have been designed and quasi-statically tested to validate their design mechanical properties in previous studies. Following this study, the seismic shaking tests of these full-scale LRBs are performed and discussed in this paper with the dummy mass system to investigate actual seismic isolation performance, dynamic characteristics of LRBs, consistency of the LRB’s quality, and so on. To study the seismic isolation performance, three beam structures (S1–S3) with different natural frequencies were installed both on the shaking table and the dummy mass supported by four LRBs: (1) S1: structure close to seismic isolation frequency; (2) S2: structure close to peak input spectral frequency; (3) S3: structure in the high-frequency region. The test results are described in various seismic levels of OBE (Operating Basis Earthquake), SSE (Safe Shutdown Earthquake), and BDBE (Beyond Design Basis Earthquake), and are compared with the analysis results to assure the seismic isolation performance and the LRB’s design parameters. From the results of the shaking table tests, it is confirmed that the lead inserted small-sized LRBs reveal an adequate seismic isolation performance and their dynamic characteristics as intended in the LRB design.
topic seismic isolation
laminated rubber bearing
lead rubber bearing
shaking table test
nuclear facility component
beyond design basis earthquake
url https://www.mdpi.com/2076-3417/11/10/4431
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AT taemyungshin shakingtabletestsofleadinsertedsmallsizedlaminatedrubberbearingfornuclearcomponentseismicisolation
AT sangjinma shakingtabletestsofleadinsertedsmallsizedlaminatedrubberbearingfornuclearcomponentseismicisolation
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