Add to ORKGThe structure transformation mechanism in Ti-48Al(mole percent) intermetallic alloy was investigated when it was cooled rapidly from singleαphase region. The results showed that the massiveγwas obtained by anα→γmassive transformation during the quenching process in this alloy. A large number of defects, such as anti-phase boundaries (APBs), stacking faults, microtwins and dislocations, were observed to be within the massiveγ.Studies indicate that the massiveγnucleates with coherent interface and grows in a diffusion controlled ledge growth mechanism
In engineering materials, microstructural evolution during hot-working critically determines the pro...
Electron microscopy was used to study the decomposition of the ? phase in rapidly solidified titaniu...
A number of issues of current importance to achieving a fundamental understanding of the mechanisms ...
Introduction As Ti rich Ti-Al alloy shows ductile nature with the a 2 + g lamellar structure [1], t...
The effects of massive transformation and subsequent heat treatments on the microstructure of Ti-46A...
International audienceA Ti-48 at.% Al alloy has been investigated by means of atom probe field ion m...
It has been widely reported that the microstructure refinement of TiAl alloys can be achieved by mas...
Phase transformation in titanium alloys on high temperature exposure has been studied. The central t...
The βprior → αm massive transformation was reproducibly observed during additive manufacturing (AM) ...
γ-based titanium aluminides are candidate materials for several high temperature structural applicat...
In this study the martensitic transformation behavior of a Mo-bearing γ-TiAl based alloy was investi...
Oil quenching is applied to a Ti-45Al-7.5b alloy (in at%) in order to investigate the occurrence of ...
In modern β-solidified TiAl alloys, the decomposition of α$_2$ phase is frequently observed during h...
The transformations between the phases α2 (Ti3Al) and ωo were investigated in a lamellar multiphase ...
The phase transformation behavior of Ti-42Al-5Mn (at.%) alloy from different phase regions with vari...
In engineering materials, microstructural evolution during hot-working critically determines the pro...
Electron microscopy was used to study the decomposition of the ? phase in rapidly solidified titaniu...
A number of issues of current importance to achieving a fundamental understanding of the mechanisms ...
Introduction As Ti rich Ti-Al alloy shows ductile nature with the a 2 + g lamellar structure [1], t...
The effects of massive transformation and subsequent heat treatments on the microstructure of Ti-46A...
International audienceA Ti-48 at.% Al alloy has been investigated by means of atom probe field ion m...
It has been widely reported that the microstructure refinement of TiAl alloys can be achieved by mas...
Phase transformation in titanium alloys on high temperature exposure has been studied. The central t...
The βprior → αm massive transformation was reproducibly observed during additive manufacturing (AM) ...
γ-based titanium aluminides are candidate materials for several high temperature structural applicat...
In this study the martensitic transformation behavior of a Mo-bearing γ-TiAl based alloy was investi...
Oil quenching is applied to a Ti-45Al-7.5b alloy (in at%) in order to investigate the occurrence of ...
In modern β-solidified TiAl alloys, the decomposition of α$_2$ phase is frequently observed during h...
The transformations between the phases α2 (Ti3Al) and ωo were investigated in a lamellar multiphase ...
The phase transformation behavior of Ti-42Al-5Mn (at.%) alloy from different phase regions with vari...
In engineering materials, microstructural evolution during hot-working critically determines the pro...
Electron microscopy was used to study the decomposition of the ? phase in rapidly solidified titaniu...
A number of issues of current importance to achieving a fundamental understanding of the mechanisms ...