Powder Metallurgy of Titanium at the 12 th World Conference on Titanium-中国材料进展

文章信息/Info

Title:: Powder Metallurgy of Titanium at the 12 th World Conference on Titanium

作者:: MA Qian; ( ARC CoE for Design in Light Metals,School of Mechanical and Mining Engineering,The University of Queensland,Brisbane Qld 4072, Australia)

Author(s):: MA Qian; ( ARC CoE for Design in Light Metals,School of Mechanical and Mining Engineering,The University of Queensland,Brisbane Qld 4072, Australia)

关键词:: ; power metallurgy of titanium; cold compaction and sinter; microwave assisted sintering

摘要:: The 12 th World Conference on Titanium has seen the presentation of a number of noteworthy 〖JP〗developments that were aimed at achieving cost reductions and/or improved constitutional and microstructural capabilities through the conventional coldcompactionandsinter powder metallurgy (PM) approach. This review discusses several such developments,including the scavenging of oxygen and chlorine from Ti powder compacts during sintering by minor additions of rare earth compounds, the advantages of PM Ti fabrication with TiH2 powder over elemental Ti powder, the efforts to develop ultrafine assintered microstructures from the use of TiH2 powder, the design of sintering pathways for high solute content alloys such as Ti10V2Fe3Al, and the positive implications of microwaveassisted sintering of commercially pure (CP) Ti and Ti alloys.

Abstract:: The 12 th World Conference on Titanium has seen the presentation of a number of noteworthy 〖JP〗developments that were aimed at achieving cost reductions and/or improved constitutional and microstructural capabilities through the conventional coldcompactionandsinter powder metallurgy (PM) approach. This review discusses several such developments,including the scavenging of oxygen and chlorine from Ti powder compacts during sintering by minor additions of rare earth compounds, the advantages of PM Ti fabrication with TiH2 powder over elemental Ti powder, the efforts to develop ultrafine assintered microstructures from the use of TiH2 powder, the design of sintering pathways for high solute content alloys such as Ti10V2Fe3Al, and the positive implications of microwaveassisted sintering of commercially pure (CP) Ti and Ti alloys.