Detail publikace
Wheel Squeal Noise in Rail Transport: The Effect of Friction Modifier Composition
NAVRÁTIL, V. GALAS, R. KLAPKA, M. KVARDA, D. OMASTA, M. SHI, L. DING, H. WANG, W. KŘUPKA, I. HARTL, M.
Anglický název
Wheel Squeal Noise in Rail Transport: The Effect of Friction Modifier Composition
Typ
článek v časopise ve Scopus, Jsc
Jazyk
en
Originální abstrakt
This study aimed to find an appropriate content of water-based friction modifier that will be able to reduce squeal noise without a significant impact on the coefficient of adhesion. A twin-disc machine was used, and the angle of attack of 4 ° simulates sharp curve conditions. The frictional behavior of nine water-based compositions was investigated for dry and wet films. During these experiments, the sound pressure level and the coefficient of adhesion were monitored. The results showed that the presence of solid lubricant in the composition is needed to achieve a long retentivity; however, its higher content can cause low adhesion. The composition with lower solid lubricant content and particles for friction modification with lower Mohs hardness was found to be suitable for further experiments. Moreover, comparison of recorded signals revealed that there is a bilinear dependence between the coefficient of adhesion and the sound pressure level.
Anglický abstrakt
This study aimed to find an appropriate content of water-based friction modifier that will be able to reduce squeal noise without a significant impact on the coefficient of adhesion. A twin-disc machine was used, and the angle of attack of 4 ° simulates sharp curve conditions. The frictional behavior of nine water-based compositions was investigated for dry and wet films. During these experiments, the sound pressure level and the coefficient of adhesion were monitored. The results showed that the presence of solid lubricant in the composition is needed to achieve a long retentivity; however, its higher content can cause low adhesion. The composition with lower solid lubricant content and particles for friction modification with lower Mohs hardness was found to be suitable for further experiments. Moreover, comparison of recorded signals revealed that there is a bilinear dependence between the coefficient of adhesion and the sound pressure level.
Klíčová slova anglicky
Friction management; Friction modifier; Noise mitigation; Wheel squeal noise; Wheel-rail tribology
Vydáno
15.09.2022
Nakladatel
Faculty of Engineering, University of Kragujevac, Serbia
Místo
Kragujevac, Serbia
ISSN
0354-8996
Ročník
44
Číslo
3
Strany od–do
361–373
Počet stran
12
BIBTEX
@article{BUT179842,
author="Václav {Navrátil} and Radovan {Galas} and Milan {Klapka} and Daniel {Kvarda} and Milan {Omasta} and Lu-bing {Shi} and Haohao {Ding} and Wenjian {Wang} and Ivan {Křupka} and Martin {Hartl},
title="Wheel Squeal Noise in Rail Transport: The Effect of Friction Modifier Composition",
year="2022",
volume="44",
number="3",
month="September",
pages="361--373",
publisher="Faculty of Engineering, University of Kragujevac, Serbia",
address="Kragujevac, Serbia",
issn="0354-8996"
}