Processing by high-pressure torsion at room temperature was employed to achieve a uniform nanostructure in a metastable Ti₆₇.₄Nb₂₄.₆Zr₅Sn₃ bcc β alloy with grains of ∼20 − 60 nm after five turns. By comparison, there was an ultrafine grain structure after equal-channel angular pressing at 903 K. The majority of refined grains were identified as bcc β-titanium with the presence of a small fraction of orthorhombic α″ martensite. It is proposed that the pronounced grain refinement is facilitated by a stress-/strain-induced β → α″ martensitic transformation. However, the presence of a large fraction of β phase in the high-pressure torsion processed samples is attributed to a reverse α″ → β martensitic transformation stimulated by the applied sh...
Experiments were conducted to investigate the processing parameters that may be used to optimize the...
An investigation was initiated to study the mechanical properties and microstructural evolution of n...
Titanium alloys, mainly Ti–6Al–4V, are commonly used in biomedical applications as orthopedic implan...
Processing by high-pressure torsion at room temperature was employed to achieve a uniform nanostruct...
AbstractProcessing by high-pressure torsion at room temperature was employed to achieve a uniform na...
Processing by high-pressure torsion at room temperature was employed to achieve a uniform nanostruct...
High pressure torsion was conducted to obtain nano-sized β grains in a metastable Ti-5553 alloy. Muc...
High pressure torsion was conducted to obtain nano-sized beta grains in a metastable Ti-5553 alloy. ...
A Ti-5553 metastable β alloy was subjected to high pressure torsion (HPT) to obtain a nano β grain s...
In the work reported in this paper, high-pressure torsion (HPT) was conducted on Ti-22Al-25Nb alloy ...
© 2016 Dr. Ahmad ZafariSevere plastic deformation (SPD) is known as an effective method for producin...
Results of investigations of structural and phase transformations that occur in the titanium-nick-El...
Two different initial microstructures, martensitic and lamellar, were developed in a Ti-6Al-4V alloy...
Nanocrystalline titanium with an average grain size of about 60–70 nm was prepared by high-pressure ...
A uniform, well-defined ultrafine-grained structure was attained by equal-channel angular pressing i...
Experiments were conducted to investigate the processing parameters that may be used to optimize the...
An investigation was initiated to study the mechanical properties and microstructural evolution of n...
Titanium alloys, mainly Ti–6Al–4V, are commonly used in biomedical applications as orthopedic implan...
Processing by high-pressure torsion at room temperature was employed to achieve a uniform nanostruct...
AbstractProcessing by high-pressure torsion at room temperature was employed to achieve a uniform na...
Processing by high-pressure torsion at room temperature was employed to achieve a uniform nanostruct...
High pressure torsion was conducted to obtain nano-sized β grains in a metastable Ti-5553 alloy. Muc...
High pressure torsion was conducted to obtain nano-sized beta grains in a metastable Ti-5553 alloy. ...
A Ti-5553 metastable β alloy was subjected to high pressure torsion (HPT) to obtain a nano β grain s...
In the work reported in this paper, high-pressure torsion (HPT) was conducted on Ti-22Al-25Nb alloy ...
© 2016 Dr. Ahmad ZafariSevere plastic deformation (SPD) is known as an effective method for producin...
Results of investigations of structural and phase transformations that occur in the titanium-nick-El...
Two different initial microstructures, martensitic and lamellar, were developed in a Ti-6Al-4V alloy...
Nanocrystalline titanium with an average grain size of about 60–70 nm was prepared by high-pressure ...
A uniform, well-defined ultrafine-grained structure was attained by equal-channel angular pressing i...
Experiments were conducted to investigate the processing parameters that may be used to optimize the...
An investigation was initiated to study the mechanical properties and microstructural evolution of n...
Titanium alloys, mainly Ti–6Al–4V, are commonly used in biomedical applications as orthopedic implan...