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Development and performance research of a new-type air foil bearing with combined bump foils

In this paper, a new-type air foil bearing with combined bump foils is proposed. The bump foils are arranged and combined in the axial direction. The local and global stiffness of the bearing can be adjusted by the combination of the bump foils. Mechanical analysis of the bearing is carried out, and...

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Published in:Proceedings of the Institution of Mechanical Engineers. Part J, Journal of engineering tribology Journal of engineering tribology, 2024-05, Vol.238 (5), p.600-614
Main Authors: Shao, CongPeng, Xu, HaoJie, Li, ShuangMin, Wang, Xu, An, Qi
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Language:English
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container_title Proceedings of the Institution of Mechanical Engineers. Part J, Journal of engineering tribology
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creator Shao, CongPeng
Xu, HaoJie
Li, ShuangMin
Wang, Xu
An, Qi
description In this paper, a new-type air foil bearing with combined bump foils is proposed. The bump foils are arranged and combined in the axial direction. The local and global stiffness of the bearing can be adjusted by the combination of the bump foils. Mechanical analysis of the bearing is carried out, and the mechanical model of the elastic deformation of the flat foil and the bump foils is constructed. Combined with non-isothermal Reynolds equation and energy equation, a fluid–solid coupling numerical calculation model is constructed. Through the actual bearing test research, the reliability of the established theoretical model is verified. On this basis, combined with the specific example, the influences of the structural parameters of the new-type foil bearing on its mechanical properties and lubrication performance are studied, and the specific influence curves are obtained. It is also found that the new-type bearing proposed in this paper has good adaptability to the shaft deflection. When the shaft is deflected, the bump foil at the axial end increases the minimum film height by generating large elastic deformation, which can help to avoid wear caused by direct contact between the shaft and the foil.
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ispartof Proceedings of the Institution of Mechanical Engineers. Part J, Journal of engineering tribology, 2024-05, Vol.238 (5), p.600-614
issn 1350-6501
2041-305X
language eng
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source IMechE_英国机械工程师协会期刊; Sage Journals Online
subjects Deflection
Deformation wear
Elastic deformation
Foil bearings
Mechanical analysis
Mechanical properties
Reynolds equation
title Development and performance research of a new-type air foil bearing with combined bump foils
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