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Vibration control of vehicle suspension with magneto-rheological variable damping and inertia

Wenfeng Li, Xiaomin Dong, Jianqiang Yu, Jun Xi, Chengwang Pan

2021Journal of Intelligent Material Systems and Structures28 citationsDOI

Abstract

To avoid the limitation of conventional vehicle magnetorheological (MR) suspension, a variable damping and inertia device is applied in the vehicle suspension with MR technology. A semi-active adaptive MR inerter (AMRI) is discussed. A quarter car suspension model with an AMRI installed in parallel with a double-ended MR damper (D-MRD) is considered. First, the vehicle suspension with variable damping and inertia is analyzed. The prototype of D-MRD and MR variable inertia flywheel (MRVIF) are fabricated and tested respectively. Then, the control model of D-MRD and MRVIF is developed on the basis of test data. An improved Fuzzy PID controller for the semi-active suspension with D-MRD and AMRI is formulated. Numerical simulation is investigated to validate the proposed variable damping and inertia device. The results demonstrate that the performance of the semi-active suspension with D-MRD and AMRI can achieve much better ride comfort than the semi-active suspension with only D-MRD or AMRI.

Topics & Concepts

Suspension (topology)DamperInertiaMagnetorheological fluidControl theory (sociology)VibrationEngineeringFlywheelMagnetorheological damperVariable (mathematics)Structural engineeringAutomotive engineeringComputer scienceControl (management)AcousticsPhysicsMathematicsMathematical analysisPure mathematicsArtificial intelligenceHomotopyClassical mechanicsVibration Control and Rheological FluidsSeismic Performance and AnalysisStructural Engineering and Vibration Analysis
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