Synthesis of nanostructured Al-Mg-SiO(2) metal matrix composites using high-energy ball milling and spark plasma sintering

Mechanical alloying by high-energy ball milling is successfully used to produce a metal matrix composite of Al-Mg reinforced with amorphous silica particulate. Four different compositions are chosen with varying Mg content (0.5, 1, 2.5 and 5 by wt.%) by keeping SiO(2) content constant at 5 wt.% to m...

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Veröffentlicht in:	Journal of alloys and compounds 2012-09, Vol.536 (SUPPL.1), p.S35-S40
Hauptverfasser:	Bhatt, J, Balachander, N, Shekher, S, Karthikeyan, R, Peshwe, D R, Murty, B S
Format:	Artikel
Sprache:	eng
Schlagworte:	Aluminum Ball milling Magnesium Mechanical alloying Metal matrix composites Pellets Silicon dioxide Spark plasma sintering
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creator	Bhatt, J Balachander, N Shekher, S Karthikeyan, R Peshwe, D R Murty, B S
description	Mechanical alloying by high-energy ball milling is successfully used to produce a metal matrix composite of Al-Mg reinforced with amorphous silica particulate. Four different compositions are chosen with varying Mg content (0.5, 1, 2.5 and 5 by wt.%) by keeping SiO(2) content constant at 5 wt.% to make nanocomposites by high energy ball milling and microcomposites by mechanical mixing. No new phases are found in 20 h mechanically alloyed Al-Mg-SiCh metal matrix composite. XRD study showed Mg is completely dissolved into the Al matrix. XRD observation also showed decrease in crystallite size and increase in lattice strain with progress of mechanical alloying. SEM micrographs indicate decrease in particle size via fracture and cold welding phenomena. The powders are made in the form of cylindrical pellets of 20 mm diameter by Spark Plasma Sintering. X-ray diffraction analysis of the pellets obtained after sintering indicates the evolution of MgAl(2)O(4) spinel structure along with Al(2)O(3). Vickers hardness values observed for nanocomposites are more than twice as high as that of microcomposites.
doi_str_mv	10.1016/j.jallcom.2011.12.062
format	Article
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Four different compositions are chosen with varying Mg content (0.5, 1, 2.5 and 5 by wt.%) by keeping SiO(2) content constant at 5 wt.% to make nanocomposites by high energy ball milling and microcomposites by mechanical mixing. No new phases are found in 20 h mechanically alloyed Al-Mg-SiCh metal matrix composite. XRD study showed Mg is completely dissolved into the Al matrix. XRD observation also showed decrease in crystallite size and increase in lattice strain with progress of mechanical alloying. SEM micrographs indicate decrease in particle size via fracture and cold welding phenomena. The powders are made in the form of cylindrical pellets of 20 mm diameter by Spark Plasma Sintering. X-ray diffraction analysis of the pellets obtained after sintering indicates the evolution of MgAl(2)O(4) spinel structure along with Al(2)O(3). 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subjects	Aluminum Ball milling Magnesium Mechanical alloying Metal matrix composites Pellets Silicon dioxide Spark plasma sintering
title	Synthesis of nanostructured Al-Mg-SiO(2) metal matrix composites using high-energy ball milling and spark plasma sintering
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