Development of a composite friction modifier with carbon nanotubes for applications at the wheel–rail interface

Juan Camilo Vélez; Jesús Antonio Carlos Cornelio; Robinson Buitrago Sierra; Juan Felipe Santa; Lina Marcela Hoyos-Palacio; Roman Nevshupa; Alejandro Toro

doi:10.1177/2633366X20930019

Development of a composite friction modifier with carbon nanotubes for applications at the wheel–rail interface

Juan Camilo Vélez
, Jesús Antonio Carlos Cornelio
, Robinson Buitrago Sierra
, Juan Felipe Santa
, Lina Marcela Hoyos-Palacio
, Roman Nevshupa
, Alejandro Toro

Research output: Contribution to scientific journal › Article in an indexed scientific journal › peer-review

11 Scopus citations

Abstract

Wear of wheels and rails is a major problem in railway transportation industry. Solid lubricants constitute a cost-efficient alternative to control wear and friction at the wheel–rail interface, especially when a fine-tuned balance between traction force and energy consumption is sought. In this work, composite friction modifiers (CFMs) composed of a vinyl ester matrix reinforced with molybdenum disulfide and carbon nanotubes were developed. The total solid additive content was less than a half in comparison with a commercial product available on the market, which was used as a reference. A benchmarking study of the CFM was carried out by means of tribological tests in a twin-disc machine at a contact pressure of 1.1 GPa and different slip values. The results indicated that the developed CFM reduce coefficient of traction by 10% compared to unlubricated conditions that is similar to the reference. However, the total mass loss of steel components due to wear under CFM lubrication was lower than in the reference test.

Original language	English
Journal	Advanced Composites Letters
Volume	29
DOIs	https://doi.org/10.1177/2633366X20930019
State	Published - 2020

Bibliographical note

Publisher Copyright:
© The Author(s) 2020.

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 7 Affordable and Clean Energy

Keywords

carbon nanotubes
composite friction modifiers
wheel–rail contact

Types Minciencias

Artículos de investigación con calidad Q3

Access to Document

10.1177/2633366X20930019

Cite this

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title = "Development of a composite friction modifier with carbon nanotubes for applications at the wheel–rail interface",

abstract = "Wear of wheels and rails is a major problem in railway transportation industry. Solid lubricants constitute a cost-efficient alternative to control wear and friction at the wheel–rail interface, especially when a fine-tuned balance between traction force and energy consumption is sought. In this work, composite friction modifiers (CFMs) composed of a vinyl ester matrix reinforced with molybdenum disulfide and carbon nanotubes were developed. The total solid additive content was less than a half in comparison with a commercial product available on the market, which was used as a reference. A benchmarking study of the CFM was carried out by means of tribological tests in a twin-disc machine at a contact pressure of 1.1 GPa and different slip values. The results indicated that the developed CFM reduce coefficient of traction by 10\% compared to unlubricated conditions that is similar to the reference. However, the total mass loss of steel components due to wear under CFM lubrication was lower than in the reference test.",

keywords = "carbon nanotubes, composite friction modifiers, wheel–rail contact",

author = "V{\'e}lez, \{Juan Camilo\} and Cornelio, \{Jes{\'u}s Antonio Carlos\} and Sierra, \{Robinson Buitrago\} and Santa, \{Juan Felipe\} and Hoyos-Palacio, \{Lina Marcela\} and Roman Nevshupa and Alejandro Toro",

note = "Publisher Copyright: {\textcopyright} The Author(s) 2020.",

year = "2020",

doi = "10.1177/2633366X20930019",

language = "Ingl{\'e}s",

volume = "29",

journal = "Advanced Composites Letters",

issn = "0963-6935",

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TY - JOUR

T1 - Development of a composite friction modifier with carbon nanotubes for applications at the wheel–rail interface

AU - Vélez, Juan Camilo

AU - Cornelio, Jesús Antonio Carlos

AU - Sierra, Robinson Buitrago

AU - Santa, Juan Felipe

AU - Hoyos-Palacio, Lina Marcela

AU - Nevshupa, Roman

AU - Toro, Alejandro

PY - 2020

Y1 - 2020

N2 - Wear of wheels and rails is a major problem in railway transportation industry. Solid lubricants constitute a cost-efficient alternative to control wear and friction at the wheel–rail interface, especially when a fine-tuned balance between traction force and energy consumption is sought. In this work, composite friction modifiers (CFMs) composed of a vinyl ester matrix reinforced with molybdenum disulfide and carbon nanotubes were developed. The total solid additive content was less than a half in comparison with a commercial product available on the market, which was used as a reference. A benchmarking study of the CFM was carried out by means of tribological tests in a twin-disc machine at a contact pressure of 1.1 GPa and different slip values. The results indicated that the developed CFM reduce coefficient of traction by 10% compared to unlubricated conditions that is similar to the reference. However, the total mass loss of steel components due to wear under CFM lubrication was lower than in the reference test.

AB - Wear of wheels and rails is a major problem in railway transportation industry. Solid lubricants constitute a cost-efficient alternative to control wear and friction at the wheel–rail interface, especially when a fine-tuned balance between traction force and energy consumption is sought. In this work, composite friction modifiers (CFMs) composed of a vinyl ester matrix reinforced with molybdenum disulfide and carbon nanotubes were developed. The total solid additive content was less than a half in comparison with a commercial product available on the market, which was used as a reference. A benchmarking study of the CFM was carried out by means of tribological tests in a twin-disc machine at a contact pressure of 1.1 GPa and different slip values. The results indicated that the developed CFM reduce coefficient of traction by 10% compared to unlubricated conditions that is similar to the reference. However, the total mass loss of steel components due to wear under CFM lubrication was lower than in the reference test.

KW - carbon nanotubes

KW - composite friction modifiers

KW - wheel–rail contact

UR - https://www.scopus.com/pages/publications/85098446902

U2 - 10.1177/2633366X20930019

DO - 10.1177/2633366X20930019

M3 - Artículo en revista científica indexada

AN - SCOPUS:85098446902

SN - 0963-6935

VL - 29

JO - Advanced Composites Letters

JF - Advanced Composites Letters

ER -

Development of a composite friction modifier with carbon nanotubes for applications at the wheel–rail interface

Abstract

Bibliographical note

UN SDGs

Keywords

Types Minciencias

Access to Document

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