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机构地区:[1]大连理工大学能源与动力学院,辽宁大连116024 [2]哈尔滨工业大学(威海)基础学部,威海264209 [3]哈尔滨工业大学能源学院,哈尔滨150001
出 处:《振动与冲击》2010年第1期173-177,共5页Journal of Vibration and Shock
摘 要:基于静态压缩实验、广义胡克定律和应变能密度推导了描述橡胶超弹性的本构关系,进而获得了橡胶隔振器静态刚度模型;在此基础上,提出基于动态激振实验的动态刚度模型,该模型由橡胶隔振器静态刚度、位移系数和频率系数组成。在此基础上,对单自由度质量-隔振器系统进行数值仿真和实验测试,二者获得的系统的固有频率基本吻合,验证了所提出的橡胶隔振器动力学模型的正确性。研究结果为获得橡胶隔振器静、动态刚度模型提供了简洁、实用的思路,并为研究含有隔振器的动力系统的动力学特性提供了理论基础。A new constitutive relation describing rubber hyper-elasticity was derived based on static stiffness testing, generalized Hooke law and strain-energy density,and a static stiffness model of a rubber isolator was obtained.A dynamic stiffness model considering rubber visco-hyperelasticity was also proposed with dynamic exciting experiments,this model consists of static stiffness,displacement coefficient and frequency coefficient.Numerical simulation was employed to obtain the resonance frequency for a mass-isolator system with single degree of freedom.The result was close to experiment test data,it verified the reasonability and effectiveness of this dynamic stiffness model.Research results provided a compact and valid method for identifying the static and dynamic stiffness models of a rubber isolator,and also provided theoretical foundation for studying dynamic features of a power machinery with isolators.
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