Ti–Mg–Si alloys produced by non-equilibrium processing methods: mechanical alloying and sputtering

Mechanical alloying (MA) and magnetron sputtering were used as processing techniques for the synthesis of various Ti–Mg–Si (Ti-rich) lightweight alloys. The samples were analysed by means of electron probe microanalysis (EPMA), X-ray diffraction (XRD), transmission electron microscopy (TEM), differe...

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Veröffentlicht in:	Materials science & engineering. A, Structural materials : properties, microstructure and processing Structural materials : properties, microstructure and processing, 2004-01, Vol.364 (1), p.273-280
Hauptverfasser:	Dias, L., Trindade, B., Coelho, C., Patankar, S., Draney, C., Sam Froes, F.H.
Format:	Artikel
Sprache:	eng
Schlagworte:	Cross-disciplinary physics: materials science rheology Deposition by sputtering Exact sciences and technology Materials science Materials synthesis materials processing Mechanical alloying Methods of deposition of films and coatings film growth and epitaxy Physics Powder processing: powder metallurgy, compaction, sintering, mechanical alloying, and granulation Sputtering Thermal behaviour Ti–Mg–Si system
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container_title	Materials science & engineering. A, Structural materials : properties, microstructure and processing
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creator	Dias, L. Trindade, B. Coelho, C. Patankar, S. Draney, C. Sam Froes, F.H.
description	Mechanical alloying (MA) and magnetron sputtering were used as processing techniques for the synthesis of various Ti–Mg–Si (Ti-rich) lightweight alloys. The samples were analysed by means of electron probe microanalysis (EPMA), X-ray diffraction (XRD), transmission electron microscopy (TEM), differential thermal analysis (DTA) and differential scanning calorimetry (DSC). Results show that a supersaturated low range ordered solid solution of Ti(Mg, Si) was produced during milling of the Ti 75Mg 13Si 12 mixture, which crystallises at about 550 °C, giving rise to a dispersion of Ti 5Si 3 in a α-Ti matrix. A metastable (Ti, Mg) 5Si 3 intermetallic was observed to form during milling of the Ti 60Mg 10Si 30 sample obtained by two different milling processing routes: (i) from elemental Ti, Mg and Si powders and (ii) from titanium hydride (TiH 1.924), Mg and Si powders. The (Ti, Mg) 5Si 3 intermetallic decomposes into Ti 5Si 3 and Mg 2Si in the temperature range of 600–700 °C. Contrarily to the results obtained for the mechanically alloyed samples, no low range ordered or intermetallic phases were detected in the as-deposited sputtered thin films. All but the Ti 81Mg 6Si 13 thin film (lowest Mg content) contain two hcp phases, α-Ti and Mg, with [0 0 0 2] preferred orientations. The Ti 81Mg 6Si 13 thin film consists of an extended α-Ti solid solution. The heat treatment of the thin films lead to an increase of the structural order of these phases and to the formation of Ti 5Si 3.
doi_str_mv	10.1016/j.msea.2003.08.029
format	Article
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The samples were analysed by means of electron probe microanalysis (EPMA), X-ray diffraction (XRD), transmission electron microscopy (TEM), differential thermal analysis (DTA) and differential scanning calorimetry (DSC). Results show that a supersaturated low range ordered solid solution of Ti(Mg, Si) was produced during milling of the Ti 75Mg 13Si 12 mixture, which crystallises at about 550 °C, giving rise to a dispersion of Ti 5Si 3 in a α-Ti matrix. A metastable (Ti, Mg) 5Si 3 intermetallic was observed to form during milling of the Ti 60Mg 10Si 30 sample obtained by two different milling processing routes: (i) from elemental Ti, Mg and Si powders and (ii) from titanium hydride (TiH 1.924), Mg and Si powders. The (Ti, Mg) 5Si 3 intermetallic decomposes into Ti 5Si 3 and Mg 2Si in the temperature range of 600–700 °C. Contrarily to the results obtained for the mechanically alloyed samples, no low range ordered or intermetallic phases were detected in the as-deposited sputtered thin films. All but the Ti 81Mg 6Si 13 thin film (lowest Mg content) contain two hcp phases, α-Ti and Mg, with [0 0 0 2] preferred orientations. The Ti 81Mg 6Si 13 thin film consists of an extended α-Ti solid solution. 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A, Structural materials : properties, microstructure and processing</title><description>Mechanical alloying (MA) and magnetron sputtering were used as processing techniques for the synthesis of various Ti–Mg–Si (Ti-rich) lightweight alloys. The samples were analysed by means of electron probe microanalysis (EPMA), X-ray diffraction (XRD), transmission electron microscopy (TEM), differential thermal analysis (DTA) and differential scanning calorimetry (DSC). Results show that a supersaturated low range ordered solid solution of Ti(Mg, Si) was produced during milling of the Ti 75Mg 13Si 12 mixture, which crystallises at about 550 °C, giving rise to a dispersion of Ti 5Si 3 in a α-Ti matrix. A metastable (Ti, Mg) 5Si 3 intermetallic was observed to form during milling of the Ti 60Mg 10Si 30 sample obtained by two different milling processing routes: (i) from elemental Ti, Mg and Si powders and (ii) from titanium hydride (TiH 1.924), Mg and Si powders. The (Ti, Mg) 5Si 3 intermetallic decomposes into Ti 5Si 3 and Mg 2Si in the temperature range of 600–700 °C. Contrarily to the results obtained for the mechanically alloyed samples, no low range ordered or intermetallic phases were detected in the as-deposited sputtered thin films. All but the Ti 81Mg 6Si 13 thin film (lowest Mg content) contain two hcp phases, α-Ti and Mg, with [0 0 0 2] preferred orientations. The Ti 81Mg 6Si 13 thin film consists of an extended α-Ti solid solution. 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subjects	Cross-disciplinary physics: materials science rheology Deposition by sputtering Exact sciences and technology Materials science Materials synthesis materials processing Mechanical alloying Methods of deposition of films and coatings film growth and epitaxy Physics Powder processing: powder metallurgy, compaction, sintering, mechanical alloying, and granulation Sputtering Thermal behaviour Ti–Mg–Si system
title	Ti–Mg–Si alloys produced by non-equilibrium processing methods: mechanical alloying and sputtering
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