Detail publikace

Hydraulic resistance of magnetorheological damper viscous bypass gap

Originální název

Hydraulic resistance of magnetorheological damper viscous bypass gap

Anglický název

Hydraulic resistance of magnetorheological damper viscous bypass gap

Jazyk

en

Originální abstrakt

The paper presents hydraulic resistance of viscous bypass gap in magnetorheological damper using FEM system Ansys. The appropriate design of bypass gap is essential for efficient function of MR damper in automotive. In the paper, a numerical hydraulic model of bypass gap filled with MR fluid is compared with experiments on the designed test rig. Maximal difference between numerical model and experiments for various geometries and MR fluids is 24%.

Anglický abstrakt

The paper presents hydraulic resistance of viscous bypass gap in magnetorheological damper using FEM system Ansys. The appropriate design of bypass gap is essential for efficient function of MR damper in automotive. In the paper, a numerical hydraulic model of bypass gap filled with MR fluid is compared with experiments on the designed test rig. Maximal difference between numerical model and experiments for various geometries and MR fluids is 24%.

BibTex


@inproceedings{BUT124830,
  author="Michal {Kubík} and Ondřej {Macháček} and Zbyněk {Strecker} and Jakub {Roupec} and Ivan {Mazůrek}",
  title="Hydraulic resistance of magnetorheological damper viscous bypass gap",
  annote="The paper presents hydraulic resistance of viscous bypass gap in magnetorheological damper using FEM system Ansys. The appropriate design of bypass gap is essential for efficient function of MR damper in automotive. In the paper, a numerical hydraulic model of bypass gap filled with MR fluid is compared with experiments on the designed test rig. Maximal difference between numerical model and experiments for various geometries and MR fluids is 24%.",
  address="Institute of Thermomechanics Academy of Sciences of the Czech Republic",
  booktitle="Engineering Mechanics 2016",
  chapter="124830",
  edition="first edition",
  howpublished="print",
  institution="Institute of Thermomechanics Academy of Sciences of the Czech Republic",
  year="2016",
  month="may",
  pages="330--333",
  publisher="Institute of Thermomechanics Academy of Sciences of the Czech Republic",
  type="conference paper"
}