Coupling study on dynamics and TEHL behavior of high-speed and heavy-load angular contact ball bearing with spinning

In this paper, on the basis of quasi-dynamic theory and TEHL (thermal elastohydrodynamic lubrication) theory, a combined numerical algorithm is proposed to judge the lubrication state of high-speed and heavy-load angular contact ball bearing on aero-engine main-shaft. Based on the new coupled numeri...

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Veröffentlicht in:	Tribology international 2015-08, Vol.88, p.76-84
Hauptverfasser:	Shi, Xiu-Jiang, Wang, Li-Qin, Mao, Yu-Ze, Qin, Fen-Qi
Format:	Artikel
Sprache:	eng
Schlagworte:	Ball bearings Bearing Contact Contact angle Joining Lubrication Lubrication state Mathematical models Quasi-dynamics Spinning TEHL
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creator	Shi, Xiu-Jiang Wang, Li-Qin Mao, Yu-Ze Qin, Fen-Qi
description	In this paper, on the basis of quasi-dynamic theory and TEHL (thermal elastohydrodynamic lubrication) theory, a combined numerical algorithm is proposed to judge the lubrication state of high-speed and heavy-load angular contact ball bearing on aero-engine main-shaft. Based on the new coupled numerical model of bearing quasi-dynamics and TEHL analysis in point contacts, a whole coupled theoretical analysis of bearing lubricated problem is conducted from whole to local, results show that slide–roll ratios are closely related to spinning and gyration, the bearing stays in a full film state under normal operating conditions and the short-term poor lubrication may occur under the conditions of slowdown, start or stop. •We propose a combined numerical algorithm of bearing quasi-dynamics and TEHL analysis.•We set up a coupled numerical model of bearing quasi-dynamics and TEHL analysis in point contacts.•A whole theoretical lubricated analysis of ball bearing considering spinning is completed.•The judgment and transition of lubrication state are obtained by combined algorithm.
doi_str_mv	10.1016/j.triboint.2015.03.011
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subjects	Ball bearings Bearing Contact Contact angle Joining Lubrication Lubrication state Mathematical models Quasi-dynamics Spinning TEHL
title	Coupling study on dynamics and TEHL behavior of high-speed and heavy-load angular contact ball bearing with spinning
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