Tribological Characteristics of NiAl Matrix Composites with 1.5 wt% Graphene at Elevated Temperatures: An Experimental and Theoretical Study

Ahmed Mohamed Mahmoud Ibrahim; Xiaoliang Shi; Ao Zhang; Kang Yang; Wenzheng Zhai

doi:10.1080/10402004.2015.1044149

Tribological Characteristics of NiAl Matrix Composites with 1.5 wt% Graphene at Elevated Temperatures: An Experimental and Theoretical Study

Ahmed Mohamed Mahmoud Ibrahim
, Xiaoliang Shi
, Ao Zhang
, Kang Yang
, Wenzheng Zhai

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

19 Citations (Scopus)

Abstract

In this study, the tribological properties of NiAl matrix composites with 1.5 wt% graphene nanoplatelets (NAG) at elevated temperatures were simulated and tested. NAG exhibits excellent characteristics at 100 and 200°C due to the formation of metal oxides and graphene nanoplatelets lubrication film. Furthermore, the removed layer thickness, the stress distributions, and the high stresses of the affected layer have been estimated theoretically. At 400°C, the friction coefficient increased due to the absence of the lubrication layer. In addition, the wear rate increased due to the excessive stresses, the increased layer thickness removal, and the propagation of subsurface cracks.

Original language	English
Pages (from-to)	1076-1083
Number of pages	8
Journal	Tribology Transactions
Volume	58
Issue number	6
DOIs	https://doi.org/10.1080/10402004.2015.1044149
Publication status	Published - Nov 2 2015
Externally published	Yes

Keywords

Dynamic Modeling
Friction Test Methods
Self-Lubricated Wear
Solid Lubrication
Stress Analysis

ASJC Scopus subject areas

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

Access to Document

10.1080/10402004.2015.1044149

Cite this

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title = "Tribological Characteristics of NiAl Matrix Composites with 1.5 wt\% Graphene at Elevated Temperatures: An Experimental and Theoretical Study",

abstract = "In this study, the tribological properties of NiAl matrix composites with 1.5 wt\% graphene nanoplatelets (NAG) at elevated temperatures were simulated and tested. NAG exhibits excellent characteristics at 100 and 200°C due to the formation of metal oxides and graphene nanoplatelets lubrication film. Furthermore, the removed layer thickness, the stress distributions, and the high stresses of the affected layer have been estimated theoretically. At 400°C, the friction coefficient increased due to the absence of the lubrication layer. In addition, the wear rate increased due to the excessive stresses, the increased layer thickness removal, and the propagation of subsurface cracks.",

keywords = "Dynamic Modeling, Friction Test Methods, Self-Lubricated Wear, Solid Lubrication, Stress Analysis",

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T1 - Tribological Characteristics of NiAl Matrix Composites with 1.5 wt% Graphene at Elevated Temperatures

T2 - An Experimental and Theoretical Study

AU - Ibrahim, Ahmed Mohamed Mahmoud

AU - Shi, Xiaoliang

AU - Zhang, Ao

AU - Yang, Kang

AU - Zhai, Wenzheng

PY - 2015/11/2

Y1 - 2015/11/2

N2 - In this study, the tribological properties of NiAl matrix composites with 1.5 wt% graphene nanoplatelets (NAG) at elevated temperatures were simulated and tested. NAG exhibits excellent characteristics at 100 and 200°C due to the formation of metal oxides and graphene nanoplatelets lubrication film. Furthermore, the removed layer thickness, the stress distributions, and the high stresses of the affected layer have been estimated theoretically. At 400°C, the friction coefficient increased due to the absence of the lubrication layer. In addition, the wear rate increased due to the excessive stresses, the increased layer thickness removal, and the propagation of subsurface cracks.

AB - In this study, the tribological properties of NiAl matrix composites with 1.5 wt% graphene nanoplatelets (NAG) at elevated temperatures were simulated and tested. NAG exhibits excellent characteristics at 100 and 200°C due to the formation of metal oxides and graphene nanoplatelets lubrication film. Furthermore, the removed layer thickness, the stress distributions, and the high stresses of the affected layer have been estimated theoretically. At 400°C, the friction coefficient increased due to the absence of the lubrication layer. In addition, the wear rate increased due to the excessive stresses, the increased layer thickness removal, and the propagation of subsurface cracks.

KW - Dynamic Modeling

KW - Friction Test Methods

KW - Self-Lubricated Wear

KW - Solid Lubrication

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