The crystallography, distribution and stability of the interface phase in two commercial α/β titanium alloys has been analysed and the phase shown to have an f.c.c. structure. The Rhodes-Paton model for the formation of this phase in Ti-6A1-4V has been critically evaluated and found to be incompatible with the f.c.c. crystallography of these alloys. An alternative model has been proposed to explain the formation of this phase based on its identification with titanium hydride
This paper discusses the features of ω-phase formation and its thermal stability depending on the ph...
Brazing of titanium provides a joining technique suitable for the fabrication of highly-loaded aeros...
The structure and energy associated with interfaces between the BCC and HCP lattices (β and α phase,...
Although the interface phase in titanium alloys has recently been shown to be an artefact caused by ...
The α phase precipitation via phase separation (β → β′ + β) in the Ti–25Nb–3Mo–3Zr–2Sn (wt.%) alloy ...
The present contribution focuses on the nature of the β → α transformation in Ti-5333 alloy at inter...
In order to obtain more insight in the two existing mechanisms on the nucleation, i.e., sympathetic ...
We report the presence of large proportions of \u3c9-phase in Ti-Hf-Zr alloys, prepared using the hy...
Abstract. The structure of titanium-base alloys with d-metals of V-VIII groups of the Periodic Table...
We have examined the formation of α phase at grain boundary triple junctions of parent β in a metast...
The decomposition of the beta phase in rapidly quenched Ti-2.8 at. pet Co, Ti-5.4 at. pet Ni, Ti-4.5...
The structure of titanium-base alloys with d-metals of V-VIII groups of the Periodic Table, quenched...
AbstractWe have computed formation energies for all technologically relevant transition metal solute...
To identify the conditions under which ɷ assists α formation in a near-β Ti alloy, we employed trans...
Abstract. In this investigation the role of the nanocrystalline ω phase on the formation of ω in th...
This paper discusses the features of ω-phase formation and its thermal stability depending on the ph...
Brazing of titanium provides a joining technique suitable for the fabrication of highly-loaded aeros...
The structure and energy associated with interfaces between the BCC and HCP lattices (β and α phase,...
Although the interface phase in titanium alloys has recently been shown to be an artefact caused by ...
The α phase precipitation via phase separation (β → β′ + β) in the Ti–25Nb–3Mo–3Zr–2Sn (wt.%) alloy ...
The present contribution focuses on the nature of the β → α transformation in Ti-5333 alloy at inter...
In order to obtain more insight in the two existing mechanisms on the nucleation, i.e., sympathetic ...
We report the presence of large proportions of \u3c9-phase in Ti-Hf-Zr alloys, prepared using the hy...
Abstract. The structure of titanium-base alloys with d-metals of V-VIII groups of the Periodic Table...
We have examined the formation of α phase at grain boundary triple junctions of parent β in a metast...
The decomposition of the beta phase in rapidly quenched Ti-2.8 at. pet Co, Ti-5.4 at. pet Ni, Ti-4.5...
The structure of titanium-base alloys with d-metals of V-VIII groups of the Periodic Table, quenched...
AbstractWe have computed formation energies for all technologically relevant transition metal solute...
To identify the conditions under which ɷ assists α formation in a near-β Ti alloy, we employed trans...
Abstract. In this investigation the role of the nanocrystalline ω phase on the formation of ω in th...
This paper discusses the features of ω-phase formation and its thermal stability depending on the ph...
Brazing of titanium provides a joining technique suitable for the fabrication of highly-loaded aeros...
The structure and energy associated with interfaces between the BCC and HCP lattices (β and α phase,...
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