Effect of Milling Time on Microstructure and Properties of AA6061/MWCNTS Composite Powders / Wpływ Czasu Mielenia Na Strukturę I Własności Proszk Ów Kompozytowyc H AA6061/MWCNTS

Effect of Milling Time on Microstructure and Properties of AA6061/MWCNTS Composite Powders / Wpływ Czasu Mielenia Na Strukturę I Własności Proszk Ów Kompozytowyc H AA6061/MWCNTS

The main purpose of this work is to determine the effect of milling time on microstructure as well as technological properties of aluminium matrix nanocomposites reinforced with multi-walled carbon nanotubes (MWCNTs) using powder metallurgy techniques, including mechanical alloying. The main problem...

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Main Authors: Tomiczek B., Dobrzański L.A., Macek M.
Format: Article
Language:English
Published: Polish Academy of Sciences 2015-12-01
Series:Archives of Metallurgy and Materials
Subjects:
nanocomposites
powder metallurgy
mechanical milling
carbon nanotubes
aluminium alloys
Online Access:http://www.degruyter.com/view/j/amm.2015.60.issue-4/amm-2015-0484/amm-2015-0484.xml?format=INT
id doaj-ea78f00c0d954591b179ba2c619d9eed
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spelling doaj-ea78f00c0d954591b179ba2c619d9eed2020-11-25T03:10:05ZengPolish Academy of SciencesArchives of Metallurgy and Materials2300-19092015-12-016043029303410.1515/amm-2015-0484amm-2015-0484Effect of Milling Time on Microstructure and Properties of AA6061/MWCNTS Composite Powders / Wpływ Czasu Mielenia Na Strukturę I Własności Proszk Ów Kompozytowyc H AA6061/MWCNTSTomiczek B.0Dobrzański L.A.1Macek M.2Silesian University of Technology, Institute of Engineering Materials and Biomaterials, Faculty of Mechanical Engineering, 18 a Konarskiego Str., Gliwice 44-100, PolandSilesian University of Technology, Institute of Engineering Materials and Biomaterials, Faculty of Mechanical Engineering, 18 a Konarskiego Str., Gliwice 44-100, PolandSilesian University of Technology, Institute of Engineering Materials and Biomaterials, Faculty of Mechanical Engineering, 18 a Konarskiego Str., Gliwice 44-100, PolandThe main purpose of this work is to determine the effect of milling time on microstructure as well as technological properties of aluminium matrix nanocomposites reinforced with multi-walled carbon nanotubes (MWCNTs) using powder metallurgy techniques, including mechanical alloying. The main problem of the study is the agglomeration and uneven distribution of carbon nanotubes in the matrix material and interface reactivity also. In order to reach uniform dispersion of carbon nanotubes in aluminium alloy matrix, 5÷20 h of mechanical milling in the planetary mill was used. It was found that the mechanical milling process has a strong influence on the characteristics of powders, by changing the globular morphology of as-received powder during mechanical milling process to flattened one, due to particle plastic deformation followed by cold welding and fracturing of deformed and hardened enough particles, which allows to obtain equiaxial particles again. The obtained composites are characterised by the structure of evenly distributed, disperse reinforcing particles in fine grain matrix of AA6061, facilitate the obtainment of higher values of mechanical properties, compared to the initial alloy. On the basis of micro-hardness, analysis has found that a small addition of carbon nanotubes increases nanocomposite hardness.http://www.degruyter.com/view/j/amm.2015.60.issue-4/amm-2015-0484/amm-2015-0484.xml?format=INTnanocompositespowder metallurgymechanical millingcarbon nanotubesaluminium alloys
collection DOAJ
language English
format Article
sources DOAJ
author Tomiczek B.
Dobrzański L.A.
Macek M.
spellingShingle Tomiczek B.
Dobrzański L.A.
Macek M.
Effect of Milling Time on Microstructure and Properties of AA6061/MWCNTS Composite Powders / Wpływ Czasu Mielenia Na Strukturę I Własności Proszk Ów Kompozytowyc H AA6061/MWCNTS
Archives of Metallurgy and Materials
nanocomposites
powder metallurgy
mechanical milling
carbon nanotubes
aluminium alloys
author_facet Tomiczek B.
Dobrzański L.A.
Macek M.
author_sort Tomiczek B.
title Effect of Milling Time on Microstructure and Properties of AA6061/MWCNTS Composite Powders / Wpływ Czasu Mielenia Na Strukturę I Własności Proszk Ów Kompozytowyc H AA6061/MWCNTS
title_short Effect of Milling Time on Microstructure and Properties of AA6061/MWCNTS Composite Powders / Wpływ Czasu Mielenia Na Strukturę I Własności Proszk Ów Kompozytowyc H AA6061/MWCNTS
title_full Effect of Milling Time on Microstructure and Properties of AA6061/MWCNTS Composite Powders / Wpływ Czasu Mielenia Na Strukturę I Własności Proszk Ów Kompozytowyc H AA6061/MWCNTS
title_fullStr Effect of Milling Time on Microstructure and Properties of AA6061/MWCNTS Composite Powders / Wpływ Czasu Mielenia Na Strukturę I Własności Proszk Ów Kompozytowyc H AA6061/MWCNTS
title_full_unstemmed Effect of Milling Time on Microstructure and Properties of AA6061/MWCNTS Composite Powders / Wpływ Czasu Mielenia Na Strukturę I Własności Proszk Ów Kompozytowyc H AA6061/MWCNTS
title_sort effect of milling time on microstructure and properties of aa6061/mwcnts composite powders / wpływ czasu mielenia na strukturę i własności proszk ów kompozytowyc h aa6061/mwcnts
publisher Polish Academy of Sciences
series Archives of Metallurgy and Materials
issn 2300-1909
publishDate 2015-12-01
description The main purpose of this work is to determine the effect of milling time on microstructure as well as technological properties of aluminium matrix nanocomposites reinforced with multi-walled carbon nanotubes (MWCNTs) using powder metallurgy techniques, including mechanical alloying. The main problem of the study is the agglomeration and uneven distribution of carbon nanotubes in the matrix material and interface reactivity also. In order to reach uniform dispersion of carbon nanotubes in aluminium alloy matrix, 5÷20 h of mechanical milling in the planetary mill was used. It was found that the mechanical milling process has a strong influence on the characteristics of powders, by changing the globular morphology of as-received powder during mechanical milling process to flattened one, due to particle plastic deformation followed by cold welding and fracturing of deformed and hardened enough particles, which allows to obtain equiaxial particles again. The obtained composites are characterised by the structure of evenly distributed, disperse reinforcing particles in fine grain matrix of AA6061, facilitate the obtainment of higher values of mechanical properties, compared to the initial alloy. On the basis of micro-hardness, analysis has found that a small addition of carbon nanotubes increases nanocomposite hardness.
topic nanocomposites
powder metallurgy
mechanical milling
carbon nanotubes
aluminium alloys
url http://www.degruyter.com/view/j/amm.2015.60.issue-4/amm-2015-0484/amm-2015-0484.xml?format=INT
work_keys_str_mv AT tomiczekb effectofmillingtimeonmicrostructureandpropertiesofaa6061mwcntscompositepowderswpływczasumielenianastruktureiwłasnosciproszkowkompozytowychaa6061mwcnts
AT dobrzanskila effectofmillingtimeonmicrostructureandpropertiesofaa6061mwcntscompositepowderswpływczasumielenianastruktureiwłasnosciproszkowkompozytowychaa6061mwcnts
AT macekm effectofmillingtimeonmicrostructureandpropertiesofaa6061mwcntscompositepowderswpływczasumielenianastruktureiwłasnosciproszkowkompozytowychaa6061mwcnts
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