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Tribology of 2D Nanomaterials
Yanfei Liu (editor) and Xiangyu Ge (editor)
2024
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Friction and wear between machine pairs always cause excessive energy losses and even mechanical failures in industrial applications. To overcome these problems, researchers have focused on enhancing the performance of lubricants, particularly with regard to reductions in energy dissipation and improved durability. Recently, many 2D materials were used as solid lubricants at the nano/microscales or macroscales, applied as composite fillers, or added to lubricants as additives to enhance lubrication and wear protection performances. These 2D materials exhibit different tribological behaviors, which are valuable to investigate for the development of novel lubrication systems. This reprint is aimed at the most recent discoveries in the tribology of 2D nanomaterials in research and industry.
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Keywords
- 2D nanomaterial
- Additive
- antioxidation
- artificial joint
- attapulgite
- biological lubrication additives
- carbon nanomaterials
- convective heat condition
- electric-brush plated Ni coating
- electrostatic interaction
- FESEM
- Friction
- friction and wear properties
- gas to liquid
- gear lubricant
- Graphene
- graphene lubricant
- graphene surface modification
- graphene-oil nanofluids
- heated and non-heated
- hydrogel
- layer-by-layer self-assembly
- layered double hydroxide
- lubricant additive
- lubricating oil
- lubricating performance
- lubrication
- lubrication behavior
- lubrication characteristics
- mechanical strength
- mixed convection
- MoS2-based coating
- n/a
- nano-additives
- nanofiller
- nanofluid
- rare element doping
- roughness
- surfactant
- TEM
- tribological properties
- tribological property
- tribology performance
- van der Waals heterostructure
- wear
- working gas flow
- WS2/h-BN
- yawed cylinder
Links
DOI: 10.3390/books978-3-7258-1849-5Editions