Machio, Christopher NNyabadza, DChikwanda, HKPhasha, MSibanda, VM2009-08-122009-08-122009-06Machio, C.N., Nyabadza, D, Chikwanda, HK et al. 2009. Mechanical alloying and sitering of TI - 10WT.% MG powders. 4th International Light Metals Technology Conference, Queensland, Australia, 28 June-1 July, 2009. pp 1-41662-9752http://hdl.handle.net/10204/3528This is author's own work. This paper is also published by Materials Science ForumA Ti-10wt.%Mg powder alloy has been produced by mechanical alloying. Elemental powders of Ti and Mg were ball milled in a Zoz-Simoloyer CM01 for 16 and 20 hours under argon. Mechanical alloying was followed by XRD, SEM and particle size analysis. Test specimens of the milled powders were produced by cold compaction and sintering (under argon). The milling resulted into a fcc TiMg solid solution for both milling durations. Sintering leads to a partial decomposition of the fcc TiMg to hcp TiMg and Ti.enAlloysMechanical alloyingTitaniumTI - 10WT.% MG powdersMagnesiumMgLight metals technology conferenceElemental powderPowder characterizationZoz-Simoloyer CM01XRD particle size analysisSEM particle size analysisfcc TiMg solid solutionSinteringArticleMachio, C. N., Nyabadza, D., Chikwanda, H., Phasha, M., & Sibanda, V. (2009). Mechanical alloying and sitering of TI - 10WT.% MG powders. http://hdl.handle.net/10204/3528Machio, Christopher N, D Nyabadza, HK Chikwanda, M Phasha, and VM Sibanda "Mechanical alloying and sitering of TI - 10WT.% MG powders." (2009) http://hdl.handle.net/10204/3528Machio CN, Nyabadza D, Chikwanda H, Phasha M, Sibanda V. Mechanical alloying and sitering of TI - 10WT.% MG powders. 2009; http://hdl.handle.net/10204/3528.TY - Article AU - Machio, Christopher N AU - Nyabadza, D AU - Chikwanda, HK AU - Phasha, M AU - Sibanda, VM AB - A Ti-10wt.%Mg powder alloy has been produced by mechanical alloying. Elemental powders of Ti and Mg were ball milled in a Zoz-Simoloyer CM01 for 16 and 20 hours under argon. Mechanical alloying was followed by XRD, SEM and particle size analysis. Test specimens of the milled powders were produced by cold compaction and sintering (under argon). The milling resulted into a fcc TiMg solid solution for both milling durations. Sintering leads to a partial decomposition of the fcc TiMg to hcp TiMg and Ti. DA - 2009-06 DB - ResearchSpace DP - CSIR KW - Alloys KW - Mechanical alloying KW - Titanium KW - TI - 10WT.% MG powders KW - Magnesium KW - Mg KW - Light metals technology conference KW - Elemental powder KW - Powder characterization KW - Zoz-Simoloyer CM01 KW - XRD particle size analysis KW - SEM particle size analysis KW - fcc TiMg solid solution KW - Sintering LK - https://researchspace.csir.co.za PY - 2009 SM - 1662-9752 T1 - Mechanical alloying and sitering of TI - 10WT.% MG powders TI - Mechanical alloying and sitering of TI - 10WT.% MG powders UR - http://hdl.handle.net/10204/3528 ER -