Operational range of a ferrofluid pocket bearing

Jelle Boots; Jo Spronck; Ron van Ostayen; Stefan Lampaert

doi:10.1088/1361-665X/ab2b60

Operational range of a ferrofluid pocket bearing

Jelle Boots, Jo Spronck, Ron van Ostayen, Stefan Lampaert

Mechatronic Systems Design

Research output: Contribution to journal › Article › Scientific › peer-review

6 Citations (Scopus)

45 Downloads (Pure)

Abstract

Ferrofluid pocket bearings are interesting for fast and precise positioning systems thank to the absence of stick-slip, the low viscous friction and their cost-effective nature. However, the characteristics of the bearing change due to over(de)compression since air escapes out of the enclosed pocket. This article presents an experimentally validated model that includes the air mass inside the pocket in the calculation of the equilibrium position of the ferrofluid bearing. Moreover, a simple and efficient way to obtain the operational range of the bearing is presented and a sensitivity analysis was performed. The sensitivity analysis showed that ferrofluid pocket bearings are always self-aligning and that the tilt stiffness increases when the fly height decreases or the tilt angle increases.

Original language	English
Article number	115030
Number of pages	13
Journal	Smart Materials and Structures
Volume	28
Issue number	11
DOIs	https://doi.org/10.1088/1361-665X/ab2b60
Publication status	Published - 2019

Keywords

Precision engineering
FEM modelling
mathematical modelling
hydrostatic bearing
magnetics
sensitivity analysis

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10.1088/1361-665X/ab2b60

Boots_2019_Smart_Mater._Struct._28_115030Final published version, 1.49 MBLicence: CC BY

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title = "Operational range of a ferrofluid pocket bearing",

abstract = "Ferrofluid pocket bearings are interesting for fast and precise positioning systems thank to the absence of stick-slip, the low viscous friction and their cost-effective nature. However, the characteristics of the bearing change due to over(de)compression since air escapes out of the enclosed pocket. This article presents an experimentally validated model that includes the air mass inside the pocket in the calculation of the equilibrium position of the ferrofluid bearing. Moreover, a simple and efficient way to obtain the operational range of the bearing is presented and a sensitivity analysis was performed. The sensitivity analysis showed that ferrofluid pocket bearings are always self-aligning and that the tilt stiffness increases when the fly height decreases or the tilt angle increases.",

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AU - Boots, Jelle

AU - Spronck, Jo

AU - van Ostayen, Ron

AU - Lampaert, Stefan

PY - 2019

Y1 - 2019

N2 - Ferrofluid pocket bearings are interesting for fast and precise positioning systems thank to the absence of stick-slip, the low viscous friction and their cost-effective nature. However, the characteristics of the bearing change due to over(de)compression since air escapes out of the enclosed pocket. This article presents an experimentally validated model that includes the air mass inside the pocket in the calculation of the equilibrium position of the ferrofluid bearing. Moreover, a simple and efficient way to obtain the operational range of the bearing is presented and a sensitivity analysis was performed. The sensitivity analysis showed that ferrofluid pocket bearings are always self-aligning and that the tilt stiffness increases when the fly height decreases or the tilt angle increases.

AB - Ferrofluid pocket bearings are interesting for fast and precise positioning systems thank to the absence of stick-slip, the low viscous friction and their cost-effective nature. However, the characteristics of the bearing change due to over(de)compression since air escapes out of the enclosed pocket. This article presents an experimentally validated model that includes the air mass inside the pocket in the calculation of the equilibrium position of the ferrofluid bearing. Moreover, a simple and efficient way to obtain the operational range of the bearing is presented and a sensitivity analysis was performed. The sensitivity analysis showed that ferrofluid pocket bearings are always self-aligning and that the tilt stiffness increases when the fly height decreases or the tilt angle increases.

KW - Precision engineering

KW - FEM modelling

KW - mathematical modelling

KW - hydrostatic bearing

KW - magnetics

KW - sensitivity analysis

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VL - 28

JO - Smart Materials and Structures

JF - Smart Materials and Structures

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Operational range of a ferrofluid pocket bearing

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