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Mechanical properties of LRB in low temperature state and its influence on earthquake response of high buildings

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ã€Authorã€‘ LIU Wen-guang1,QIN Huang-ting1,HE Wen-fu1,FENG De-min2,WANG Hui-qiang3(1.Civil Dept.of Shanghai University,Shanghai 200072,China;2.Fujita Corp.Atsugi 214-0125,Japan; 3.Wuxi Shengfeng Vibration Isolator Co.,Ltd.,Wuxi 214199,China)

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ã€Abstractã€‘ The variation of mechanical properties of lead rubber bearing(LRB) used as an isolation structure at low temperature of-40â„ƒ was studied the correlation between properties of LRB and the temperature ranged from-40â„ƒ to 40â„ƒ was investigated.Three LRB specimens with diameter of 600mm were tested,and the low-cycle reversed loading experiments under 100% shear deformation at different temperatures were accomplished on an electro-hydraulic servo loading system.The study shows that there exist significant differences in mechanical properties of LRB at extremely low temperature compared with those at room temperature.Based on the test results,considering the temperature effect,the corrections on the equatios for the stiffness of LRB after yielding and for the yield load were proposed and the ranges of parameters suitable for isolation structure design were provided.The results of practical examples show the significant temperature effects on the displacement of isolated system,the shear force between stories and the acceleration response at the top of upper structure under strong earthquake.æ›´å¤š è¿˜åŽŸ

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ã€Key wordsã€‘ lead rubber bearingï¼› temperatureï¼› yield loadï¼› yield stiffnessï¼›

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Mechanical properties of LRB in low temperature state and its influence on earthquake response of high buildings

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