Magnetorheological Axisymmetric Actuator with Permanent Magnet
Jakub Bernat, Paulina Superczynska, Piotr Gajewski, Agnieszka Marcinkowska
TL;DR
This paper introduces an axisymmetric magnetorheological actuator incorporating a permanent magnet, analyzing its working principle, modeling via Hammerstein model, and experimental validation for various practical applications.
Contribution
It presents a novel actuator design with a detailed model and experimental analysis emphasizing the role of the permanent magnet.
Findings
The actuator demonstrates effective static and dynamic performance.
The Hammerstein model accurately describes the device behavior.
Permanent magnet influence significantly affects the actuator's properties.
Abstract
This study examines the concept of axisymmetric actuator based on the magnetorheological membrane, electromagnet and permanent magnet. The construction of the actuator enables its application in wide range of practical devices like pumping, loudspeaker or varying-stiffness button. This work will highlight its working principle especially the influence of permanent magnet. Furthermore, the model of devices will be defined relaying on the Hammerstein model. To show the properties of the actuator and to perform the model identification, the set of experiments was run taking into account static and dynamic working conditions.
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