中文摘要：

填充橡胶材料的动态特性与激振频率及激振振幅相关。基于本构模型叠加的方法,建立填充橡胶材料的超弹性-粘弹性-弹塑性本构模型。其中,超弹性模型用于表征橡胶材料的弹性特性,粘弹性模型和弹塑性模型分别用于表征橡胶材料动态特性的激振频率和激振振幅相关性。给出模型中参数的识别方法以及橡胶隔振器的动态特性与激振频率及激振振幅相关性的计算方法。由橡胶试件的简单剪切试验数据拟合得到模型参数,利用有限元分析方法计算一橡胶悬置的动态特性并与试验数据进行对比分析。结果表明,所建立的超弹性—粘弹性—弹塑性模型可以较好地表征橡胶材料动态特性的振幅相关性和频率相关性,可用于橡胶隔振器动态特性的预测与优化设计。

英文摘要：

The dynamic properties of rubber materials are related to excitation amplitude and excitation frequency.Based on the overlay method of constitutive models,the hyperelastic-viscoelastic-plastoelastic constitutive model is built for characterizing the dynamic properties of rubber materials.The hyperelastic model is used to describe the elastic property of rubber materials,and the viscoelastic and plastoelastic models are used to characterize the frequency and amplitude dependency,respectively.Parameter identification method and the computational aspects of the frequency-and amplitude-dependent dynamic properties of the rubber isolators are investigated.The model parameters are identified by using the simple shear experimental data of rubber specimens.Based on the identified model parameters,the dynamic properties of a powertrain rubber mount are calculated by using the finite element analysis method and the calculated results agree well with the experimental data.It is shown that the presented model can predict the frequency-and amplitude-dependent dynamic properties of the rubber materials with little relative errors.Therefore,the presented method can be used for prediction and optimization design of the dynamic properties of rubber isolators.