Mechanical alloying of Al—Ti powder mixtures and their subsequent consolidation
- 1 August 1993
- journal article
- Published by Springer Nature in Journal of Materials Research
- Vol. 8 (8) , 1817-1828
- https://doi.org/10.1557/jmr.1993.1817
Abstract
Mechanically alloyed mixtures of elemental Al and Ti powders have been characterized in the as-milled condition, as well as after hot consolidation. Ball-milling in an argon atmosphere first induces alloying of the elements, followed by the formation of a certain amount of an amorphous-like phase. This amount increases as the equiatomic composition is approached. However, milling in nonsealed mills usually leads to the production of some form of titanium nitride, particularly in Ti-rich mixtures. In the consolidated products obtained from long-milled powders, intermetallic compounds were found to be the predominant phases. The existence of an amorphous phase in the as-milled powders considerably facilitates their hot consolidation.Keywords
This publication has 16 references indexed in Scilit:
- Effect of Milling Conditions on Microstructure and Material Properties of HIPed Compacts of Ti/Al Powders.Journal of the Japan Society of Powder and Powder Metallurgy, 1992
- F.C.C. Metastable Phase Induced in the Ti-Al System by Mechanical Alloying of Pure Elemental PowdersMaterials Science Forum, 1992
- Morphological Evolution and Amorphization of Ti/Cu and Ti/Al Powder Mixtures during Vibratory Ball MillingMaterials Science Forum, 1992
- Formation Process of Amorphous Phase during Mechanical Alloying for Al-6 and 12 AT% Ti Mixed PowdersMaterials Science Forum, 1992
- Microstructural Refinement & Amorphization in Ti-Al, Ti-Si and Si-W System by Mechanical AlloyingMaterials Science Forum, 1992
- High Quality Powder Production of MA Amorphous TiAl System by Reaction Ball MillingMaterials Science Forum, 1992
- Solid State Formation of Al-TM (TM; Ti, Zr, Nb and Ta) Amorphous Alloys by Mechanical Rod MillingMaterials Science Forum, 1992
- The Process of Solid State Transformation of Ti-Al System during Mechanical AlloyingMaterials Science Forum, 1992
- Microstructure and Mechanical Properties of HIPed Compacts of Mechanically Alloyed Ti-Al PowderMaterials Science Forum, 1992
- Formation of amorphous metals by mechanical alloyingMaterials Science and Engineering, 1988