Ternary mixture of Cu, Mg, and Ni with the nominal composition of nanocrystalline Cu50Mg25Ni25 (in at.%) was milled for 25 hours. Analysis of an X‐ray diffraction pattern (XRD) and transmission electron microscopy (TEM) was used to characterize the chemical phases and microstructure of the final product, which is shown to consist of ternary alloy of Cu‐Mg‐Ni with FCC structure along with small amounts of FCC MgO and Mg0.85Cu0.15. The good agreement between the size values obtained by XRD and TEM is attributed to the formation of defect‐free grains with no substructure during ball milling. Dynamic recrystallization may be a possible mechanism for the emergence of such small grains (<20 nm). The particle size distribution and morphological ch...
Abstract The microstructure evolution during mechanical milling was studied in the CuZrAl system. Th...
In this study, the formation of super saturated solid solution in the binary Cu-Fe system was invest...
International audienceThe structure, mechanical and magnetic properties of Cu90Co5Ni5 alloys produce...
Nanoparticles have a wide range of applications like biological sensors, optoelectronic devices, cat...
Nanocrystalline Ni70Co30 alloy was synthesized by high energy ball alloying from elemental pure Ni a...
International audienceThe microstructure evolution of Cu nanostructured powders at different conditi...
Cataloged from PDF version of article.The formation mechanism of Cu-11.5Al-4Mn alloys by mechanical ...
AbstractThe process of nanocrystalline structure formation during mechanical milling was studied in ...
International audienceThis work concerns the structural evolution of Cu 70 Nb 20 Al 10 (at%) alloy p...
Mechanical alloying of Cu-16 at.%Al and Cu-30 at.%Al was performed using both a planetary and a hori...
The formation mechanism of Cu-11.5Al-4Mn alloys by mechanical alloying (MA) of pure elemental powder...
The mechanism of nanostructure formation during cryogenic and room-temperature milling of Cu and Cu–...
The ball milling technique has been successfully applied to the synthesis of various materials such ...
Ti50 Cu25 Ni20Sn5 (at.%) powder was subjected to high-energy ball milling at room temperature and -7...
Nanocrystalline/amorphous powder was produced by ball milling of Ti50Cu25Ni20Sn5 (at.%) master alloy...
Abstract The microstructure evolution during mechanical milling was studied in the CuZrAl system. Th...
In this study, the formation of super saturated solid solution in the binary Cu-Fe system was invest...
International audienceThe structure, mechanical and magnetic properties of Cu90Co5Ni5 alloys produce...
Nanoparticles have a wide range of applications like biological sensors, optoelectronic devices, cat...
Nanocrystalline Ni70Co30 alloy was synthesized by high energy ball alloying from elemental pure Ni a...
International audienceThe microstructure evolution of Cu nanostructured powders at different conditi...
Cataloged from PDF version of article.The formation mechanism of Cu-11.5Al-4Mn alloys by mechanical ...
AbstractThe process of nanocrystalline structure formation during mechanical milling was studied in ...
International audienceThis work concerns the structural evolution of Cu 70 Nb 20 Al 10 (at%) alloy p...
Mechanical alloying of Cu-16 at.%Al and Cu-30 at.%Al was performed using both a planetary and a hori...
The formation mechanism of Cu-11.5Al-4Mn alloys by mechanical alloying (MA) of pure elemental powder...
The mechanism of nanostructure formation during cryogenic and room-temperature milling of Cu and Cu–...
The ball milling technique has been successfully applied to the synthesis of various materials such ...
Ti50 Cu25 Ni20Sn5 (at.%) powder was subjected to high-energy ball milling at room temperature and -7...
Nanocrystalline/amorphous powder was produced by ball milling of Ti50Cu25Ni20Sn5 (at.%) master alloy...
Abstract The microstructure evolution during mechanical milling was studied in the CuZrAl system. Th...
In this study, the formation of super saturated solid solution in the binary Cu-Fe system was invest...
International audienceThe structure, mechanical and magnetic properties of Cu90Co5Ni5 alloys produce...