Add to ORKGThe evolution of texture in the β-phase of a two-phase (O+B2) titanium–aluminide Ti–22Al–25Nb (at.%) alloy during thermo-mechanical processing in single β-phase-field has been studied. Variations in microstructure and texture have been observed as a result of variation in the amount of rolling deformation for a given rolling temperature. The evolution of crystallographic texture in the β-phase can be understood by considering the increase in dynamic recrystallisation to which is associated a grain size reduction.\u
The microstructure and texture evolution during continuous cooling hot deformation (CCHD) in a near ...
Microstructural evolution in Ti-6.8Al-3.2Mo-1.8Zr-0.3Si alloy during a newly designed thermomechanic...
The texture modifications induced by an α→β→α heat treatment of two alpha titanium sheets, cold roll...
The evolution of texture in the β-phase of a two-phase (O+B2) titanium–aluminide Ti–22Al–25Nb (at.%)...
Microstructure and texture evolution have been investigated in both α and β phases during the hot ro...
In the current study, the evolution of microstructure and texture has been studied for Ti-6Al-4V-0.1...
Evolution of crystallographic texture in the orthorhombic phase of a two-phase alloy Ti–22Al–25Nb (a...
Evolution of crystallographic texture in the orthorhombic phase of a two-phase alloy Ti–22Al–25Nb (a...
The microstructural evolution and underlying mechanism of a new high strength, high toughness near β...
Texture evolution in a low cost beta titanium alloy was studied for different modes of rolling and h...
Texture evolution in a low cost beta titanium alloy was studied for different modes of rolling and h...
In this study, hot rolling treatment followed by water quenching was conducted on a TC18 titanium al...
In this study, hot rolling treatment followed by water quenching was conducted on a TC18 titanium al...
Texture evolution in h. c. p. (alpha) phase derived from aging of a differently processed metastable...
Texture evolution in h. c. p. (alpha) phase derived from aging of a differently processed metastable...
The microstructure and texture evolution during continuous cooling hot deformation (CCHD) in a near ...
Microstructural evolution in Ti-6.8Al-3.2Mo-1.8Zr-0.3Si alloy during a newly designed thermomechanic...
The texture modifications induced by an α→β→α heat treatment of two alpha titanium sheets, cold roll...
The evolution of texture in the β-phase of a two-phase (O+B2) titanium–aluminide Ti–22Al–25Nb (at.%)...
Microstructure and texture evolution have been investigated in both α and β phases during the hot ro...
In the current study, the evolution of microstructure and texture has been studied for Ti-6Al-4V-0.1...
Evolution of crystallographic texture in the orthorhombic phase of a two-phase alloy Ti–22Al–25Nb (a...
Evolution of crystallographic texture in the orthorhombic phase of a two-phase alloy Ti–22Al–25Nb (a...
The microstructural evolution and underlying mechanism of a new high strength, high toughness near β...
Texture evolution in a low cost beta titanium alloy was studied for different modes of rolling and h...
Texture evolution in a low cost beta titanium alloy was studied for different modes of rolling and h...
In this study, hot rolling treatment followed by water quenching was conducted on a TC18 titanium al...
In this study, hot rolling treatment followed by water quenching was conducted on a TC18 titanium al...
Texture evolution in h. c. p. (alpha) phase derived from aging of a differently processed metastable...
Texture evolution in h. c. p. (alpha) phase derived from aging of a differently processed metastable...
The microstructure and texture evolution during continuous cooling hot deformation (CCHD) in a near ...
Microstructural evolution in Ti-6.8Al-3.2Mo-1.8Zr-0.3Si alloy during a newly designed thermomechanic...
The texture modifications induced by an α→β→α heat treatment of two alpha titanium sheets, cold roll...