Publication detail

Transient magnetic model of magnetorheological damper and its experimental verification

KUBÍK, M. MACHÁČEK, O. ROUPEC, J. STRECKER, Z. NOVÁK, P. MAZŮREK, I.

Original Title

Transient magnetic model of magnetorheological damper and its experimental verification

Type

conference paper

Language

English

Original Abstract

The present paper deals with the transient magnetic model of the magnetorheological (MR) damper and its experimental verification. The response time of MR damper affects the quality of semi-active control of this damper. The lower the response time, the higher the system efficiency. The most important part of the response time of the MR damper is the response time of magnetic field of the MR damper which can be determined by transient magnetic model. The transient magnetic model was created by the software Ansys Electromagnetics 17.1 as 2D axisymmetric and verified by measurement of magnetic field in the gap of MR damper piston. The maximum difference between the model and the experiment was 28 %. The response time depends on the electric current in the coil of MR damper. The transient magnetic model was used for determination of influence of MR fluid type, material of cover and material of magnetic circuit on the response time of magnetic field of MR damper. The type of MR fluid has a significant influence on the response time. The lower the mass concentration of ferromagnetic particles, the lower the response time of magnetic field. A material selection of magnetic circuit is always a trade-off between the response time and the maximum magnetic flux density (dynamic force range) in the gap of the MR damper. According to the verified transient magnetic model, it is possible to find a suitable material of magnetic circuit for specific application (response time).

Keywords

Transient magnetic model, magnetorheological damper, MR damper,

Authors

KUBÍK, M.; MACHÁČEK, O.; ROUPEC, J.; STRECKER, Z.; NOVÁK, P.; MAZŮREK, I.

Released

30. 1. 2018

Publisher

MATEC web of Conferences

ISBN

2261-236X

Periodical

MATEC Web of Conferences

Year of study

153

Number

2018

State

French Republic

Pages from

1

Pages to

5

Pages count

5

BibTex

@inproceedings{BUT146200,
  author="Michal {Kubík} and Ondřej {Macháček} and Jakub {Roupec} and Zbyněk {Strecker} and Petr {Novák} and Ivan {Mazůrek}",
  title="Transient magnetic model of magnetorheological damper and its experimental verification",
  booktitle="ICMME 2017",
  year="2018",
  journal="MATEC Web of Conferences",
  volume="153",
  number="2018",
  pages="1--5",
  publisher="MATEC web of Conferences",
  doi="10.1051/matecconf/201815306002",
  issn="2261-236X"
}