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Fractional Calculus Modeling of the Magnetorheological Damper and the Analysis of its Damping System

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ã€Authorã€‘ CHEN Bing-san,ZENG Shou-jin,JIANG Ji-bin(Mechanical Engneering and its Automation,Fujian University of Technology,Fuzhou 350108,China)

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ã€Abstractã€‘ The combined magnetorheological damper developed in the paper is composed of rubber spring,magnetorheological damper,which inherits the damping merits of the rubber spring and the magnetorheological damper.Here the factional-order constitutive equation was introduced to study the characteristics of the combined damper according to its viscoelasticity.A fractional Zener model for the damper is built,and its viscoelasticity is analyzed.In order to verify the effectiveness of the fractional Zener model,the fractional-order system model of magnetorheological vibrant platform was set up and the transfer function representation of fractional-order system was given,and the function of displacement was also obtained.Through the experiments it was found that the sampling data can fit the fractional-order system model well.It is indicated the fractional-order constitutive equation and the transfer function are feasible and effective for investigation of magnetorheological vibrant device.æ›´å¤š è¿˜åŽŸ

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ã€Key wordsã€‘ Fractional Calculusï¼› Magnetorheological Fluidï¼› Fractional-Order Constitutive Equationï¼› Fractional-Order Systemï¼› System Modelingï¼›

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Fractional Calculus Modeling of the Magnetorheological Damper and the Analysis of its Damping System

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