Publication detail
Rheological and tribological performance of top-of-rail friction modifiers with different viscosities
WU, B. SHI, L. LI, J. DING, H. GALAS, R. OMASTA, M. GUO, J. WANG, W. HARTL, M.
English title
Rheological and tribological performance of top-of-rail friction modifiers with different viscosities
Type
journal article in Web of Science
Language
en
Original abstract
Friction modifier (FM) in the rail/wheel applications is a special lubrication material that could be applied between the top of rail and the tread of wheel. The application of FM brings many benefits to the wheel-rail interface such as reducing noise, alleviating wheel-rail wear and mitigating corrugation. Viscosity is an important parameter to reflect fluid properties of FM materials. In this study, FM samples with different viscosities were prepared by changing the content of sodium carboxymethyl cellulose (CMC). The tribological and rheological performance of these FM samples were explored using the twin-disc testing machine and rotational rheometer. Furthermore, the relationship between the tribological and rheological results were tried to establish. The results showed that the increase in the content of CMC could increase the viscosity of FM and enhance the solid-like characteristic of FM, which could help FM reduce coefficient of adhesion (COA) level and wheel-rail damage. For the FM material developed in this study, the rational applying amount and the range of viscosity were about 15 mu L/time and 200 Pa.s to 400 Pa.s, respectively, considering the factors of wheel-rail adhesion, wear, potential waste and pumping process in the practical application.
English abstract
Friction modifier (FM) in the rail/wheel applications is a special lubrication material that could be applied between the top of rail and the tread of wheel. The application of FM brings many benefits to the wheel-rail interface such as reducing noise, alleviating wheel-rail wear and mitigating corrugation. Viscosity is an important parameter to reflect fluid properties of FM materials. In this study, FM samples with different viscosities were prepared by changing the content of sodium carboxymethyl cellulose (CMC). The tribological and rheological performance of these FM samples were explored using the twin-disc testing machine and rotational rheometer. Furthermore, the relationship between the tribological and rheological results were tried to establish. The results showed that the increase in the content of CMC could increase the viscosity of FM and enhance the solid-like characteristic of FM, which could help FM reduce coefficient of adhesion (COA) level and wheel-rail damage. For the FM material developed in this study, the rational applying amount and the range of viscosity were about 15 mu L/time and 200 Pa.s to 400 Pa.s, respectively, considering the factors of wheel-rail adhesion, wear, potential waste and pumping process in the practical application.
Keywords in English
Friction modifier; Wheel-rail adhesion; Damage; Rheology
Released
15.02.2024
Publisher
ELSEVIER SCIENCE SA
Location
LAUSANNE
ISSN
0043-1648
Volume
538
Number
February
Pages count
15
BIBTEX
@article{BUT191127,
author="Bingnan {Wu} and Lubing {Shi} and Jiaxin {Li} and Haohao {Ding} and Radovan {Galas} and Milan {Omasta} and Jun {Guo} and Wenjian {Wang} and Martin {Hartl},
title="Rheological and tribological performance of top-of-rail friction modifiers with different viscosities",
year="2024",
volume="538",
number="February",
month="February",
publisher="ELSEVIER SCIENCE SA",
address="LAUSANNE",
issn="0043-1648"
}