Add to ORKGMechanical alloying (MA) of Ti%Al (molar fraction) powder by using Planetary ball milling equipment, have been sucessfully refine the crystallite size and produced TiAl nano-alloys. The characteristics of the powder samples, including composition, surface morpology and microstructure, were investigated by using X-ray diffraction and field emission scanning electron microscopy (FESEM) coupled with Energy-dispersive X-ray spectrocopy (EDX). Mechanical alloying of elemental Ti and Al powder mixture resulting in the formation of Ti (Al) solid solution which exhibits a formation of TiAl phase after 40 h of milling. Crystallite size refinement by MA shows a great reduction from 70nm, down to minimum of 21nm after 100h of milling. Subsequently he...
Additive Manufacturing (AM) is an attractive way of producing parts of intermetallic titanium alloys...
© 2019 Johnson JacobTitanium aluminide (mainly TiAl) based intermetallic alloys have superior mechan...
The intermetallic alloy TiAl strengthened with TiB2 dispersoids has a high potential for lightweight...
Mechanical alloying (MA) of Ti-50%Al (molar fraction) powder by using Planetary ball milling equipme...
One of the method in powder metallurgy namely as mechanical alloying is not only a simple and inexpe...
Two fully dense nanocrystalline TiAl-based compacts, Ti-47.5Al-3Cr and Ti-48Al-2Nb-2Cr, were synthes...
Titanium aluminide nano alloys has been successfully produced by mechanical alloying (MA) techniqu...
Microstructural evolution during mechanical milling of pre-alloyed gamma-(Ti52Al48)(95)B-5 powders w...
Elemental powders of stoichiometric Al3Ti were mechanically alloyed (MA) in order to investigate the...
Abstract In this work, mechanical alloying was employed to produce Ti-50Al and Ti-45Al-5Cr (at %) al...
Titanium aluminide alloys based on γ-TiAl have an excellent potential to become an attractive inter...
For the preparation of nanocrystalline intermetallic alloys, phase formation and the evolution of th...
Titanium aluminides are considered the choice material for next generation propulsion systems due to...
Ti-43Al-5V-4Nb (at%) intermetallic compounds were fabricated by a rapid heating and open die forging...
Due to the unique combination of low density and their excellent properties-profile at elevated temp...
Additive Manufacturing (AM) is an attractive way of producing parts of intermetallic titanium alloys...
© 2019 Johnson JacobTitanium aluminide (mainly TiAl) based intermetallic alloys have superior mechan...
The intermetallic alloy TiAl strengthened with TiB2 dispersoids has a high potential for lightweight...
Mechanical alloying (MA) of Ti-50%Al (molar fraction) powder by using Planetary ball milling equipme...
One of the method in powder metallurgy namely as mechanical alloying is not only a simple and inexpe...
Two fully dense nanocrystalline TiAl-based compacts, Ti-47.5Al-3Cr and Ti-48Al-2Nb-2Cr, were synthes...
Titanium aluminide nano alloys has been successfully produced by mechanical alloying (MA) techniqu...
Microstructural evolution during mechanical milling of pre-alloyed gamma-(Ti52Al48)(95)B-5 powders w...
Elemental powders of stoichiometric Al3Ti were mechanically alloyed (MA) in order to investigate the...
Abstract In this work, mechanical alloying was employed to produce Ti-50Al and Ti-45Al-5Cr (at %) al...
Titanium aluminide alloys based on γ-TiAl have an excellent potential to become an attractive inter...
For the preparation of nanocrystalline intermetallic alloys, phase formation and the evolution of th...
Titanium aluminides are considered the choice material for next generation propulsion systems due to...
Ti-43Al-5V-4Nb (at%) intermetallic compounds were fabricated by a rapid heating and open die forging...
Due to the unique combination of low density and their excellent properties-profile at elevated temp...
Additive Manufacturing (AM) is an attractive way of producing parts of intermetallic titanium alloys...
© 2019 Johnson JacobTitanium aluminide (mainly TiAl) based intermetallic alloys have superior mechan...
The intermetallic alloy TiAl strengthened with TiB2 dispersoids has a high potential for lightweight...