Publication detail
Effect of Surface Velocity Directions on Elastohydrodynamic Film Shape
OMASTA, M. KŘUPKA, I. HARTL, M.
Czech title
Vliv směru vektorů rychlosti povrchů na tvar elatohydrodynamického mazacího filmu
English title
Effect of Surface Velocity Directions on Elastohydrodynamic Film Shape
Type
journal article in Web of Science
Language
en
Original abstract
This article is focused on the effects of the angle between lubricant entrainment velocity and sliding velocity on elastohydrodynamic film thickness distribution. Thin-film colorimetric interferometry was used to evaluate the film thickness distribution in smooth glass–steel contacts to provide basic data on the effects of the slide–roll ratio and the direction of sliding with respect to entrainment velocity.
Czech abstract
Tento článek je zaměřen na vliv úhlu mezi směrem unášivé rychlosti maziva a skluzové rychlosti na elastohydrodynamický mazací film. Byla použita kolorimetrická interferometrie ke stanovení rozložení tloušťky mazacího filmu v hladkém kontaktu skleněného disku a ocelové kuličky za účelem poskytnutí základních informací o vlivu velikosti skluzu a jeho orientaci.
English abstract
This article is focused on the effects of the angle between lubricant entrainment velocity and sliding velocity on elastohydrodynamic film thickness distribution. Thin-film colorimetric interferometry was used to evaluate the film thickness distribution in smooth glass–steel contacts to provide basic data on the effects of the slide–roll ratio and the direction of sliding with respect to entrainment velocity.
Keywords in Czech
Elastohydrodynamické mazání; Směr rychlosti; Valení-prokluz
Keywords in English
Elastohydrodynamic Lubrication; Velocity Direction; Rolling–Sliding
RIV year
2013
Released
27.02.2013
Publisher
Taylor & Francis
Location
USA
ISSN
1040-2004
Volume
56
Number
2
Pages from–to
301–309
Pages count
9
BIBTEX
@article{BUT99252,
author="Milan {Omasta} and Ivan {Křupka} and Martin {Hartl},
title="Effect of Surface Velocity Directions on Elastohydrodynamic Film Shape",
year="2013",
volume="56",
number="2",
month="February",
pages="301--309",
publisher="Taylor & Francis",
address="USA",
issn="1040-2004"
}