Detail publikace
Is Elastohydrodynamic Minimum Film Thickness Truly Governed by Inlet Rheology?
HABCHI, W. ŠPERKA, P. BAIR, S.
Anglický název
Is Elastohydrodynamic Minimum Film Thickness Truly Governed by Inlet Rheology?
Typ
článek v časopise ve Web of Science, Jimp
Jazyk
en
Originální abstrakt
This work investigates the governing mechanisms of minimum film thickness in elastohydrodynamic lubricated contacts. Up until now, it was thought to be governed by lubricant rheology in the low-pressure contact inlet. Through numerical simulations of EHL line and circular contacts, lubricated with fluids having the same low-pressure viscosity, but a very different response at high-pressure, minimum film thickness is shown to be governed by lubricant inlet rheology only in the theoretical line contact configuration. In real contacts however, it is not only governed by inlet rheology, but also by the high-pressure viscosity response of the lubricant. It is observed that the greater the viscosity at high pressure, the lower the minimum film thickness would be, as a result of reduced lateral flow out of the contact. Conservation of mass requires then that a higher minimum film thickness would be attained along the central line of the contact, in the entrainment direction. These findings corroborate well with experimental observations.
Anglický abstrakt
This work investigates the governing mechanisms of minimum film thickness in elastohydrodynamic lubricated contacts. Up until now, it was thought to be governed by lubricant rheology in the low-pressure contact inlet. Through numerical simulations of EHL line and circular contacts, lubricated with fluids having the same low-pressure viscosity, but a very different response at high-pressure, minimum film thickness is shown to be governed by lubricant inlet rheology only in the theoretical line contact configuration. In real contacts however, it is not only governed by inlet rheology, but also by the high-pressure viscosity response of the lubricant. It is observed that the greater the viscosity at high pressure, the lower the minimum film thickness would be, as a result of reduced lateral flow out of the contact. Conservation of mass requires then that a higher minimum film thickness would be attained along the central line of the contact, in the entrainment direction. These findings corroborate well with experimental observations.
Klíčová slova anglicky
Elastohydrodynamic lubrication; Minimum film thickness; High-pressure rheology
Vydáno
30.09.2023
Nakladatel
Springer Nature
Místo
NEW YORK
ISSN
1023-8883
Ročník
71
Číslo
3
Počet stran
9
BIBTEX
@article{BUT187551,
author="Wassim {Habchi} and Petr {Šperka} and Scott {Bair},
title="Is Elastohydrodynamic Minimum Film Thickness Truly Governed by Inlet Rheology?",
year="2023",
volume="71",
number="3",
month="September",
publisher="Springer Nature",
address="NEW YORK",
issn="1023-8883"
}