Publication detail
Numerical Solution of Micro-lubrication in Internal Combustion Engine Journal Bearing Numerical Solution of Micro-lubrication in Internal Combustion Engine Journal Bearing Numerical Solution of Micro-lubrication in Internal Combustion Engine Journal Bearing Numerical Solution of Micro-lubrication in Internal Combustion Engine Journal Bearing
MARŠÁLEK, O. NOVOTNÝ, P. KNOTEK, J.
Czech title
Numerické řešení mikro-mazání kluzného ložiska spalovacího motoru
English title
Numerical Solution of Micro-lubrication in Internal Combustion Engine Journal Bearing Numerical Solution of Micro-lubrication in Internal Combustion Engine Journal Bearing Numerical Solution of Micro-lubrication in Internal Combustion Engine Journal Bearing Numerical Solution of Micro-lubrication in Internal Combustion Engine Journal Bearing
Type
conference paper
Language
en
Original abstract
All technological processes leading to the final surface visage of mechanical components create on its surface characteristic pattern. These surface patterns subsequently play a significant role in terms of their function and lubrication, particularly in the case of surface contact pairs. However, inclusion of the actual surface patterns of machine parts as one of the input parameters of the computational simulation of friction losses is still not common. This article describes a complex computational model for solving the frictional losses for directionally oriented and non-oriented sliding surfaces.
Czech abstract
Všchny technologické procesy, vedoucí k finálnímu vzhledu povrchů strojních součástí vytváří na jejich povrchu charakteristické stopy. Tyto stopy hrají významnou roli z hlediska funkce a mazání. Nicméně zahrnutí těchto skutečných povrchů strojních součástí do výpočetních momdelů třecích ztrát stále není běžnou záležitostí. Tento článek popisuje komplexní výpočetní model pro řešení třecích ztrát směrově závislých povrchů.
English abstract
All technological processes leading to the final surface visage of mechanical components create on its surface characteristic pattern. These surface patterns subsequently play a significant role in terms of their function and lubrication, particularly in the case of surface contact pairs. However, inclusion of the actual surface patterns of machine parts as one of the input parameters of the computational simulation of friction losses is still not common. This article describes a complex computational model for solving the frictional losses for directionally oriented and non-oriented sliding surfaces.
Keywords in Czech
rádius zakřivení, kontaktní tlak, flow factor, drsný povrch
Keywords in English
asperity radius, contact pressure, flow factor, rough surface
RIV year
2015
Released
12.05.2015
Publisher
Institute of Theoretical and Applied Mechanics, Avademy of Sciences of the Czech Republic, v.v.i, Prague
Location
Prague
ISBN
978-80-86246-42-0
ISSN
NEUVEDENO
Book
Engineering Mechanics 2015
Edition number
1
Pages from–to
192–193
Pages count
2
BIBTEX
@inproceedings{BUT114687,
author="Ondřej {Maršálek} and Pavel {Novotný} and Jiří {Knotek},
title="Numerical Solution of Micro-lubrication in Internal Combustion Engine Journal Bearing Numerical Solution of Micro-lubrication in Internal Combustion Engine Journal Bearing Numerical Solution of Micro-lubrication in Internal Combustion Engine Journal Bearing Numerical Solution of Micro-lubrication in Internal Combustion Engine Journal Bearing",
booktitle="Engineering Mechanics 2015",
year="2015",
month="May",
pages="192--193",
publisher="Institute of Theoretical and Applied Mechanics, Avademy of Sciences of the Czech Republic, v.v.i, Prague",
address="Prague",
isbn="978-80-86246-42-0",
issn="NEUVEDENO"
}