Add to ORKGNanocrystalline γ-alumina powders of 50-nm size were milled by high-energy ball milling. It was found that the pure γ-alumina phase showed great stability and did not transform to any other phase even after a long milling time. On the other hand, γ-alumina, which contained a small amount of the α7-alumina phase, showed a gradual phase transformation from γ- to α-alumina on milling. The phase transformation mechanism during milling appears to be nucleation and growth type and promoted by the α-alumina seed
AbstractThe influence of stress modes and comminution conditions on the effectiveness of particle si...
The effect of milling time on the morphology, microstructure, physical and mechanical properties of ...
Dry milling of gibbsite has been carried out for 5 h in planetary ball mill to study the effect of m...
Nanocrystalline γ-alumina powders of 50-nm size were milled by high-energy ball milling. It was foun...
Nanocrystalline gamma-alumina powders of 50-nm size were milled by high-energy hall milling. It was ...
The phase transformation of mechanically milled nano-sized γ-alumina particles was investigated. The...
The phase transformation of mechanically milled nano-sized gamma-alumina particles was investigated....
Elemental powders of stoichiometric Al3Ti were mechanically alloyed (MA) in order to investigate the...
AbstractNano-sized alumina particles have been generated by milling mixture of aluminium and mangane...
In this research, effect of the various mechanical milling process on morphology and microstructural...
Quasicrystalline aluminium alloys and aluminium based nanocomposites with the advantage of high stre...
The experiment aims to investigate the effect of high energy milling to the crystallite size of α-al...
Quasicrystalline aluminium alloys and aluminium based nanocomposites with the advantage of high stre...
International audienceHigh-energy ball-milling is proven to be an effective technique for manufactur...
The use of nanocrystalline particles can greatly increase the sinterability and properties of many c...
AbstractThe influence of stress modes and comminution conditions on the effectiveness of particle si...
The effect of milling time on the morphology, microstructure, physical and mechanical properties of ...
Dry milling of gibbsite has been carried out for 5 h in planetary ball mill to study the effect of m...
Nanocrystalline γ-alumina powders of 50-nm size were milled by high-energy ball milling. It was foun...
Nanocrystalline gamma-alumina powders of 50-nm size were milled by high-energy hall milling. It was ...
The phase transformation of mechanically milled nano-sized γ-alumina particles was investigated. The...
The phase transformation of mechanically milled nano-sized gamma-alumina particles was investigated....
Elemental powders of stoichiometric Al3Ti were mechanically alloyed (MA) in order to investigate the...
AbstractNano-sized alumina particles have been generated by milling mixture of aluminium and mangane...
In this research, effect of the various mechanical milling process on morphology and microstructural...
Quasicrystalline aluminium alloys and aluminium based nanocomposites with the advantage of high stre...
The experiment aims to investigate the effect of high energy milling to the crystallite size of α-al...
Quasicrystalline aluminium alloys and aluminium based nanocomposites with the advantage of high stre...
International audienceHigh-energy ball-milling is proven to be an effective technique for manufactur...
The use of nanocrystalline particles can greatly increase the sinterability and properties of many c...
AbstractThe influence of stress modes and comminution conditions on the effectiveness of particle si...
The effect of milling time on the morphology, microstructure, physical and mechanical properties of ...
Dry milling of gibbsite has been carried out for 5 h in planetary ball mill to study the effect of m...