Effect of contact geometry on lubricant replenishment in grease lubricated rolling contacts

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Autoren

  • Xuyang Jin
  • Xinming Li
  • Linqing Bai
  • Feng Guo
  • Junbin Gao
  • Gerhard Poll

Externe Organisationen

  • Qingdao Technological University
Forschungs-netzwerk anzeigen

Details

OriginalspracheEnglisch
Aufsatznummer110077
Seitenumfang12
FachzeitschriftTribology international
Jahrgang200
Frühes Online-Datum7 Aug. 2024
PublikationsstatusVeröffentlicht - Dez. 2024

Abstract

The contact geometries encountered in rolling element-outer race or inner race contacts in real bearings are not involved in conventional ball-on-flat disc configurations. However, the underlying lubricant replenishment mechanism induced by the contact conformity plays a significant role in maintaining a long-term operation of the rolling bearings. To reveal those replenishment mechanisms, the traditional flat disc is replaced by a grooved disc to reproduce the contact geometries. Additionally, a ball support structure consisting of dual arc-shaped rollers is employed to simulate the ball-inner race contact, aiming to explore the contributions of grease distributions to replenishment. The results show that the film thickness gradually diminishes to severe starvation states in the traditional contact configuration, while the lubrication states are efficiently improved as the ball-grooved or ball-arc shaped contact configuration is introduced, confirming the replenishment efficiency. The enhanced lubricant replenishment behaviors can be attributed to the high-strength shear exerted on the grease both at the inlet region and within the contacts where micro-slip occurs, as well as the surface tension and capillary force-induced lubricant replenishment. The findings of this study contribute to a comprehensive understanding of grease lubrication and replenishment in real bearings.

ASJC Scopus Sachgebiete

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Effect of contact geometry on lubricant replenishment in grease lubricated rolling contacts. / Jin, Xuyang; Li, Xinming; Bai, Linqing et al.
in: Tribology international, Jahrgang 200, 110077, 12.2024.

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Jin X, Li X, Bai L, Guo F, Gao J, Poll G. Effect of contact geometry on lubricant replenishment in grease lubricated rolling contacts. Tribology international. 2024 Dez;200:110077. Epub 2024 Aug 7. doi: 10.1016/j.triboint.2024.110077
Jin, Xuyang ; Li, Xinming ; Bai, Linqing et al. / Effect of contact geometry on lubricant replenishment in grease lubricated rolling contacts. in: Tribology international. 2024 ; Jahrgang 200.
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abstract = "The contact geometries encountered in rolling element-outer race or inner race contacts in real bearings are not involved in conventional ball-on-flat disc configurations. However, the underlying lubricant replenishment mechanism induced by the contact conformity plays a significant role in maintaining a long-term operation of the rolling bearings. To reveal those replenishment mechanisms, the traditional flat disc is replaced by a grooved disc to reproduce the contact geometries. Additionally, a ball support structure consisting of dual arc-shaped rollers is employed to simulate the ball-inner race contact, aiming to explore the contributions of grease distributions to replenishment. The results show that the film thickness gradually diminishes to severe starvation states in the traditional contact configuration, while the lubrication states are efficiently improved as the ball-grooved or ball-arc shaped contact configuration is introduced, confirming the replenishment efficiency. The enhanced lubricant replenishment behaviors can be attributed to the high-strength shear exerted on the grease both at the inlet region and within the contacts where micro-slip occurs, as well as the surface tension and capillary force-induced lubricant replenishment. The findings of this study contribute to a comprehensive understanding of grease lubrication and replenishment in real bearings.",
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T1 - Effect of contact geometry on lubricant replenishment in grease lubricated rolling contacts

AU - Jin, Xuyang

AU - Li, Xinming

AU - Bai, Linqing

AU - Guo, Feng

AU - Gao, Junbin

AU - Poll, Gerhard

N1 - Publisher Copyright: © 2024 Elsevier Ltd

PY - 2024/12

Y1 - 2024/12

N2 - The contact geometries encountered in rolling element-outer race or inner race contacts in real bearings are not involved in conventional ball-on-flat disc configurations. However, the underlying lubricant replenishment mechanism induced by the contact conformity plays a significant role in maintaining a long-term operation of the rolling bearings. To reveal those replenishment mechanisms, the traditional flat disc is replaced by a grooved disc to reproduce the contact geometries. Additionally, a ball support structure consisting of dual arc-shaped rollers is employed to simulate the ball-inner race contact, aiming to explore the contributions of grease distributions to replenishment. The results show that the film thickness gradually diminishes to severe starvation states in the traditional contact configuration, while the lubrication states are efficiently improved as the ball-grooved or ball-arc shaped contact configuration is introduced, confirming the replenishment efficiency. The enhanced lubricant replenishment behaviors can be attributed to the high-strength shear exerted on the grease both at the inlet region and within the contacts where micro-slip occurs, as well as the surface tension and capillary force-induced lubricant replenishment. The findings of this study contribute to a comprehensive understanding of grease lubrication and replenishment in real bearings.

AB - The contact geometries encountered in rolling element-outer race or inner race contacts in real bearings are not involved in conventional ball-on-flat disc configurations. However, the underlying lubricant replenishment mechanism induced by the contact conformity plays a significant role in maintaining a long-term operation of the rolling bearings. To reveal those replenishment mechanisms, the traditional flat disc is replaced by a grooved disc to reproduce the contact geometries. Additionally, a ball support structure consisting of dual arc-shaped rollers is employed to simulate the ball-inner race contact, aiming to explore the contributions of grease distributions to replenishment. The results show that the film thickness gradually diminishes to severe starvation states in the traditional contact configuration, while the lubrication states are efficiently improved as the ball-grooved or ball-arc shaped contact configuration is introduced, confirming the replenishment efficiency. The enhanced lubricant replenishment behaviors can be attributed to the high-strength shear exerted on the grease both at the inlet region and within the contacts where micro-slip occurs, as well as the surface tension and capillary force-induced lubricant replenishment. The findings of this study contribute to a comprehensive understanding of grease lubrication and replenishment in real bearings.

KW - Contact geometry

KW - Film thickness

KW - Grease lubrication

KW - Replenishment

KW - Rolling bearings

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