The enhanced tribological properties of NiAl intermetallics: Combined lubrication of multilayer graphene and WS2

Jie Yao; Xiaoliang Shi; Wenzheng Zhai; Ahmed Mohamed Mahmoud Ibrahim; Zengshi Xu; Long Chen; Qingshuai Zhu; Yecheng Xiao; Qiaoxin Zhang; Zhihai Wang

doi:10.1007/s11249-014-0439-4

The enhanced tribological properties of NiAl intermetallics: Combined lubrication of multilayer graphene and WS₂

Jie Yao
, Xiaoliang Shi
, Wenzheng Zhai
, Ahmed Mohamed Mahmoud Ibrahim
, Zengshi Xu
, Long Chen
, Qingshuai Zhu
, Yecheng Xiao
, Qiaoxin Zhang
, Zhihai Wang

Research output: Contribution to journal › Article › peer-review

25 Citations (Scopus)

Abstract

In recent years, reducing friction and wear-related adverse impacts on efficiency and durability in moving mechanical systems has gained increased attention. Herein, the search continues for novel materials and lubricants that can potentially reduce friction and wear. As one of the emerging self-lubricating materials, the tribological potential of graphene has been researched deeply. This article was dedicated to explore the combined lubrication of multilayer graphene (MLG) and WS₂. The as-prepared sample of NiAl-1.5 wt% MLG-5 wt% WS₂ (NB) exhibited excellent tribological properties. During the sliding process, a continuous lubricating film was formed to provide the low-strength junctions at the interface, reducing the friction coefficient and wear rate. Moreover, the MLG played the role of reinforcement particles and improved loading carrying ability.

Original language	English
Pages (from-to)	573-582
Number of pages	10
Journal	Tribology Letters
Volume	56
Issue number	3
DOIs	https://doi.org/10.1007/s11249-014-0439-4
Publication status	Published - Nov 20 2014
Externally published	Yes

Keywords

Self lubrication friction
Self-lubricating composites
Solid lubricants
Solid lubrication mechanisms
Solid lubrication wear

ASJC Scopus subject areas

Mechanics of Materials
Mechanical Engineering
Surfaces and Interfaces
Surfaces, Coatings and Films

Access to Document

10.1007/s11249-014-0439-4

Cite this

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title = "The enhanced tribological properties of NiAl intermetallics: Combined lubrication of multilayer graphene and WS2",

abstract = "In recent years, reducing friction and wear-related adverse impacts on efficiency and durability in moving mechanical systems has gained increased attention. Herein, the search continues for novel materials and lubricants that can potentially reduce friction and wear. As one of the emerging self-lubricating materials, the tribological potential of graphene has been researched deeply. This article was dedicated to explore the combined lubrication of multilayer graphene (MLG) and WS2. The as-prepared sample of NiAl-1.5 wt\% MLG-5 wt\% WS2 (NB) exhibited excellent tribological properties. During the sliding process, a continuous lubricating film was formed to provide the low-strength junctions at the interface, reducing the friction coefficient and wear rate. Moreover, the MLG played the role of reinforcement particles and improved loading carrying ability.",

keywords = "Self lubrication friction, Self-lubricating composites, Solid lubricants, Solid lubrication mechanisms, Solid lubrication wear",

author = "Jie Yao and Xiaoliang Shi and Wenzheng Zhai and Ibrahim, \{Ahmed Mohamed Mahmoud\} and Zengshi Xu and Long Chen and Qingshuai Zhu and Yecheng Xiao and Qiaoxin Zhang and Zhihai Wang",

note = "Publisher Copyright: {\textcopyright} 2014 Springer Science+Business Media New York.",

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T1 - The enhanced tribological properties of NiAl intermetallics

T2 - Combined lubrication of multilayer graphene and WS2

AU - Yao, Jie

AU - Shi, Xiaoliang

AU - Zhai, Wenzheng

AU - Ibrahim, Ahmed Mohamed Mahmoud

AU - Xu, Zengshi

AU - Chen, Long

AU - Zhu, Qingshuai

AU - Xiao, Yecheng

AU - Zhang, Qiaoxin

AU - Wang, Zhihai

PY - 2014/11/20

Y1 - 2014/11/20

N2 - In recent years, reducing friction and wear-related adverse impacts on efficiency and durability in moving mechanical systems has gained increased attention. Herein, the search continues for novel materials and lubricants that can potentially reduce friction and wear. As one of the emerging self-lubricating materials, the tribological potential of graphene has been researched deeply. This article was dedicated to explore the combined lubrication of multilayer graphene (MLG) and WS2. The as-prepared sample of NiAl-1.5 wt% MLG-5 wt% WS2 (NB) exhibited excellent tribological properties. During the sliding process, a continuous lubricating film was formed to provide the low-strength junctions at the interface, reducing the friction coefficient and wear rate. Moreover, the MLG played the role of reinforcement particles and improved loading carrying ability.

AB - In recent years, reducing friction and wear-related adverse impacts on efficiency and durability in moving mechanical systems has gained increased attention. Herein, the search continues for novel materials and lubricants that can potentially reduce friction and wear. As one of the emerging self-lubricating materials, the tribological potential of graphene has been researched deeply. This article was dedicated to explore the combined lubrication of multilayer graphene (MLG) and WS2. The as-prepared sample of NiAl-1.5 wt% MLG-5 wt% WS2 (NB) exhibited excellent tribological properties. During the sliding process, a continuous lubricating film was formed to provide the low-strength junctions at the interface, reducing the friction coefficient and wear rate. Moreover, the MLG played the role of reinforcement particles and improved loading carrying ability.

KW - Self lubrication friction

KW - Self-lubricating composites

KW - Solid lubricants

KW - Solid lubrication mechanisms

KW - Solid lubrication wear

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