Development of an Extrusion Process to Ameliorate the Tribological Properties of Heat Treated Al Mg Si (Cu) System Alloys Matrix Composites in Consolidated State

Development of an Extrusion Process to Ameliorate the Tribological Properties of Heat Treated Al Mg Si (Cu) System Alloys Matrix Composites in Consolidated State

The developments of AA6061 aluminum matrix composites are of great interest in industrial applications for lighter materials with high specific strength, stiffness and wear resistance. In this article, the dry wear behavior of AA6061 matrix composites was investigated under different sliding speeds...

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Main Authors: M.O. Shabani, A. Mazahery
Format: Article
Language:English
Published: University of Kragujevac 2012-09-01
Series:Tribology in Industry
Subjects:
Microstructure
Sliding Wear
Friction Coefficients
SiC
Extrusion process
Online Access:http://www.tribology.fink.rs/journals/2012/2012-3/7.pdf
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spelling doaj-cd5b4b77b7d7415f992bbc968c75c07a2020-11-24T23:41:46ZengUniversity of KragujevacTribology in Industry0354-89962217-79652012-09-01343166173Development of an Extrusion Process to Ameliorate the Tribological Properties of Heat Treated Al Mg Si (Cu) System Alloys Matrix Composites in Consolidated StateM.O. ShabaniA. MazaheryThe developments of AA6061 aluminum matrix composites are of great interest in industrial applications for lighter materials with high specific strength, stiffness and wear resistance. In this article, the dry wear behavior of AA6061 matrix composites was investigated under different sliding speeds and applied loads. It is observed that the composites exhibit higher friction coefficients and greater wear resistances than the Al alloy against the steel disc surface. Low-speed wear rates are associated with abrasive wear,indicating the dominant wear mechanism, though minor, delamination wear may be produced. Abrasive wear associates with the formation of deep scratches on the worn surface in the sliding direction. For a given load and sliding velocity the extent of iron transfer is highest in case of 15 % SiC reinforced Al6061 composite among all the material studied.http://www.tribology.fink.rs/journals/2012/2012-3/7.pdfMicrostructureSliding WearFriction CoefficientsSiCExtrusion process
collection DOAJ
language English
format Article
sources DOAJ
author M.O. Shabani
A. Mazahery
spellingShingle M.O. Shabani
A. Mazahery
Development of an Extrusion Process to Ameliorate the Tribological Properties of Heat Treated Al Mg Si (Cu) System Alloys Matrix Composites in Consolidated State
Tribology in Industry
Microstructure
Sliding Wear
Friction Coefficients
SiC
Extrusion process
author_facet M.O. Shabani
A. Mazahery
author_sort M.O. Shabani
title Development of an Extrusion Process to Ameliorate the Tribological Properties of Heat Treated Al Mg Si (Cu) System Alloys Matrix Composites in Consolidated State
title_short Development of an Extrusion Process to Ameliorate the Tribological Properties of Heat Treated Al Mg Si (Cu) System Alloys Matrix Composites in Consolidated State
title_full Development of an Extrusion Process to Ameliorate the Tribological Properties of Heat Treated Al Mg Si (Cu) System Alloys Matrix Composites in Consolidated State
title_fullStr Development of an Extrusion Process to Ameliorate the Tribological Properties of Heat Treated Al Mg Si (Cu) System Alloys Matrix Composites in Consolidated State
title_full_unstemmed Development of an Extrusion Process to Ameliorate the Tribological Properties of Heat Treated Al Mg Si (Cu) System Alloys Matrix Composites in Consolidated State
title_sort development of an extrusion process to ameliorate the tribological properties of heat treated al mg si (cu) system alloys matrix composites in consolidated state
publisher University of Kragujevac
series Tribology in Industry
issn 0354-8996
2217-7965
publishDate 2012-09-01
description The developments of AA6061 aluminum matrix composites are of great interest in industrial applications for lighter materials with high specific strength, stiffness and wear resistance. In this article, the dry wear behavior of AA6061 matrix composites was investigated under different sliding speeds and applied loads. It is observed that the composites exhibit higher friction coefficients and greater wear resistances than the Al alloy against the steel disc surface. Low-speed wear rates are associated with abrasive wear,indicating the dominant wear mechanism, though minor, delamination wear may be produced. Abrasive wear associates with the formation of deep scratches on the worn surface in the sliding direction. For a given load and sliding velocity the extent of iron transfer is highest in case of 15 % SiC reinforced Al6061 composite among all the material studied.
topic Microstructure
Sliding Wear
Friction Coefficients
SiC
Extrusion process
url http://www.tribology.fink.rs/journals/2012/2012-3/7.pdf
work_keys_str_mv AT moshabani developmentofanextrusionprocesstoamelioratethetribologicalpropertiesofheattreatedalmgsicusystemalloysmatrixcompositesinconsolidatedstate
AT amazahery developmentofanextrusionprocesstoamelioratethetribologicalpropertiesofheattreatedalmgsicusystemalloysmatrixcompositesinconsolidatedstate
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