doi:10.1080/17515831.2018.1482719

Paper Title

Tribological characterisation of epoxy–graphene–liquid filler composite coatings on steel under base oil external lubrication

Authors

Avinash Kumar Agarwal

Vikram Kumar

Sujeet K. Sinha

Keywords

Epoxy-Based Composites
Graphene Composites
In Situ Liquid Fillers
Base Oil SN150
Perfluoropolyether
Low Friction Coating
Wear Durable Coating
Steel Substrate Coatings
Dry Interfacial State
External Lubrication
Coefficient of Friction
Specific Wear Rate
Sliding Cycles Durability
Polymeric Coatings
Boundary Film Performance
Dry and Lubricated Conditions
Bearing Applications
Tribological Performance
Surface Coatings
Lubricated Friction Reduction
Wear Resistance
Advanced Composite Materials
Industrial Lubrication
Coating Failure Resistance

Article Type

Research Article

Journal

Tribology - Materials, Surfaces & Interfaces

Research Impact Tools

DOI

10.1080/17515831.2018.1482719

Issue

Volume : 12 | Issue : 3 | Page No : 144-156

Published On

September, 2018

Downloads

FULL PDF

CITATION

COPY LINK

Abstract

In our earlier study, epoxy-based composites with graphene (10 wt-%) and in situ liquid fillers (base oil SN150 or perfluoropolyether at 10 wt-%) were found to provide low friction and highly wear durable as thin coatings on the steel substrate in dry interfacial state. In this present work, we have tested this composite in the presence of an external lubricant (base oil SN150). The lowest coefficient of friction was recorded as 0.04 and the lowest specific wear rate was measured as 9.8 × 10−7 mm3 Nm−1 for the composites without any failure of the coating up to 200,000 sliding cycles. It is shown that such polymeric coatings can be an excellent boundary film in both dry and lubricated conditions for various bearings.