Tensile Stiffness and Deformation Model of Rubber Isolators in Tension and Tension-Shear States |
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Authors: | Q. R. Yang W. G. Liu W. F. He D. M. Feng |
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Affiliation: | 1Associate Professor, Dept. of Estate, Shanghai Univ., 149 Yan-Chang, Shanghai 200072, P.R. China. 2Professor, Dept. of Civil Engineering, Shanghai Univ., 149 Yan-Chang, Shanghai 200072, P.R. China (corresponding author). E-mail: liuweng8@yahoo.com.cn 3Postdoctor, Dept. of Civil Engineering, Shanghai Univ., 149 Yan-Chang, Shanghai 200072, P.R. China. 4Professor, Division of Fujita Corporation, 243-0125 Ono, Atsugi, Japan.
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Abstract: | The tensile stiffness and deformation model of rubber bearings are systemically researched in the paper, a series of basic concepts, such as origin tensile longitudinal elastic modulus, tensile stiffness factor, origin tensile stiffness, offset tension origin stiffness, etc. are suggested corresponding to the theoretical formula and the experimental estimation method. Based on the origin tensile stiffness and offset tension origin stiffness, the deformation calculating theories related to pure tensile state and tension-shear state of isolated bearing are established. The double stiffness model and original stiffness model are proposed to describe the tension properties of rubber isolators after the bearings yield. The vertical tensile stiffness, offset tension origin stiffness, and deformation tests are performed with nature rubber bearings and lead plug rubber bearings to verify the new concepts and computation model of rubber isolators. All test results show that the theories established in the paper are suitable to analyze the tensile stiffness and tensile deformation for rubber isolators. |
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Keywords: | Rubber Isolation Stiffness Deformation Tensile stress |
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