Publication detail

Influence of Free Water Droplets on Film Formation Under Point Contact Grease Lubrication

HAN, Y. ŠPERKA, P. WANG, J. KŘUPKA, I. HARTL, M. LI, W. WANG, X. WEI-MIN, L.

Original Title

Influence of Free Water Droplets on Film Formation Under Point Contact Grease Lubrication

Type

journal article in Web of Science

Language

English

Original Abstract

The influence of the grease-water two-phase emulsion on the bearing tracks on the film formation has been studied by carrying out optical interferometry experiments on a ball disk test rig to observe the dynamic film-forming behavior of lubricating grease under steady-state and micro-oscillation conditions. It is found that free water causes a brief rise in the grease film under steady-state conditions, specifically due to the grease-water phase connecting the oil reservoirs on both sides. The experiment determines that the state of the phase before entering the elastohydrodynamic lubrication (EHL) contact is water-in-oil. For the reciprocating motion and oscillation, the effects of the amount of free water and the length of the motion stroke are discussed in detail. It is found that for reciprocating movements with long stroke lengths, the effect of free water is summarized to enhance the fluidity of the fibrous mass of the grease thickener in the first few cycles of the movement. For shorter stroke lengths, the effect of free water is a scouring effect on the contact zone grease after 100 cycles. This paper provides new insights into the effects that cause water pollution to the point of contact lubrication during the transformation from reciprocating motion to fretting.

Keywords

bearings;elastohydrodynamic lubrication;films;grease lubrication;lubricants;rolling

Authors

HAN, Y.; ŠPERKA, P.; WANG, J.; KŘUPKA, I.; HARTL, M.; LI, W.; WANG, X.; WEI-MIN, L.

Released

1. 7. 2023

Publisher

ASME

Location

NEW YORK

ISBN

0742-4787

Periodical

ASME Transaction, Journal of Tribology

Year of study

145

Number

7

State

United States of America

Pages from

074101-1

Pages to

074101-17

Pages count

17

URL