Add to ORKGThis work deals with the preparation of fine-grained material based on quasicrystalline phase of Al-Fe-Cu powder metallurgy using mechanical alloying and compaction method "Spark Plasma Sintering". Described the dependence of the microstructure and phase composition of powders depending on the conditions of the mechanical alloying. It was studied the stability of the quasicrystalline phase at various temperatures and times of compactin
Elemental powder mixtures of Al65Cu23Fe12 composition milled for two and four hours in a planetary b...
Elemental powder mixtures of Al65Cu23Fe12 composition milled for two and four hours in a planetary b...
The present work aimed to characterize the microstructure of the icosahedral phase (ɸ-quasicrystalli...
The consequences of solid-state reactions in mechanically alloyed Al-Cu-Fe powders were studied usin...
In order to obtain quasicrystalline (QC) phase by mechanical alloying (MA) in the Al-Cu-F
The formation of quasicrystalline powders by mechanical alloying of crystalline elemental powders ha...
A number of elemental mixtures having initial compositions close to Al65Cu23Fe12 were mechanically a...
A number of elemental mixtures have initial compositions close to Al₆₅Cu₂₃Fe₁₂ were mechanically all...
A number of elemental mixtures have initial compositions close to Al₆₅Cu₂₃Fe₁₂ were mechanically all...
Mechanical alloying (MA) of elemental powders in the Al-Cu-Fe system was carried out using two types...
In the present study the effect of mechanical alloying parameters on phase formation in $Al_{62}Cu_{...
The effect of replacing iron with transition metals (M = Mn, Cr, Co) on the microstructure of mechan...
The effect of replacing iron with transition metals (M = Mn, Cr, Co) on the microstructure of mechan...
Elemental powder mixtures of a Al65Cu23Fe12composition milled for two and four hours in a planetary ...
Elemental powder mixtures of a Al65Cu23Fe12composition milled for two and four hours in a planetary ...
Elemental powder mixtures of Al65Cu23Fe12 composition milled for two and four hours in a planetary b...
Elemental powder mixtures of Al65Cu23Fe12 composition milled for two and four hours in a planetary b...
The present work aimed to characterize the microstructure of the icosahedral phase (ɸ-quasicrystalli...
The consequences of solid-state reactions in mechanically alloyed Al-Cu-Fe powders were studied usin...
In order to obtain quasicrystalline (QC) phase by mechanical alloying (MA) in the Al-Cu-F
The formation of quasicrystalline powders by mechanical alloying of crystalline elemental powders ha...
A number of elemental mixtures having initial compositions close to Al65Cu23Fe12 were mechanically a...
A number of elemental mixtures have initial compositions close to Al₆₅Cu₂₃Fe₁₂ were mechanically all...
A number of elemental mixtures have initial compositions close to Al₆₅Cu₂₃Fe₁₂ were mechanically all...
Mechanical alloying (MA) of elemental powders in the Al-Cu-Fe system was carried out using two types...
In the present study the effect of mechanical alloying parameters on phase formation in $Al_{62}Cu_{...
The effect of replacing iron with transition metals (M = Mn, Cr, Co) on the microstructure of mechan...
The effect of replacing iron with transition metals (M = Mn, Cr, Co) on the microstructure of mechan...
Elemental powder mixtures of a Al65Cu23Fe12composition milled for two and four hours in a planetary ...
Elemental powder mixtures of a Al65Cu23Fe12composition milled for two and four hours in a planetary ...
Elemental powder mixtures of Al65Cu23Fe12 composition milled for two and four hours in a planetary b...
Elemental powder mixtures of Al65Cu23Fe12 composition milled for two and four hours in a planetary b...
The present work aimed to characterize the microstructure of the icosahedral phase (ɸ-quasicrystalli...