Effect of Annealing on Mechanical Properties and Nanoscale Lamellar Structure in Co-Cu Alloy

Abstract: An electrodeposited Co-Cu alloy with a nanoscale lamellar structure was annealed at 673-973 K. The effects of annealing on the mechanical properties and the microstructures of the alloy such as the lamellar area ratio and the lamellar spacing were investigated. The Young's modulus of the Co-Cu alloy increased by annealing. This is mainly due to a decrease in the lamellar area ratio. The as-deposited specimens exhibited a low value of the activation volume for plastic deformation; however, the activation volume… Show more

“…2 Plenty of magnetic nanoalloys have already been used in some critical industries, ranging from catalysis to optoelectronic, magnetic, metallurgical and even medical applications. [2][3][4][5][6][7] Preparation of different nanoalloys and Cu-Co alloys are well-known and have seen considerable interest. Many traditional and conventional methods of magnetic nanoalloy preparation from miscible metals exist, such as vapor deposition, solid state milling, spray pyrolysis, electrodeposition and solution chemistry.…”

“…Many traditional and conventional methods of magnetic nanoalloy preparation from miscible metals exist, such as vapor deposition, solid state milling, spray pyrolysis, electrodeposition and solution chemistry. [7][8][9][10][11][12][13] Meanwhile, alloys of immiscible metals such as former complexes have to be manufactured by non-conventional methods such as thermal evaporation, vacuum deposition, sputtering, ion beam mixing and pulsed-laser induced quenching. 14,15 A new preparation method of metallic nickel and Co nanoparticles from coordination compounds is reported.…”

Preparation and characterization of Cu–Co alloy nanoparticles from double complex salts by chemical reduction

“…2 Plenty of magnetic nanoalloys have already been used in some critical industries, ranging from catalysis to optoelectronic, magnetic, metallurgical and even medical applications. [2][3][4][5][6][7] Preparation of different nanoalloys and Cu-Co alloys are well-known and have seen considerable interest. Many traditional and conventional methods of magnetic nanoalloy preparation from miscible metals exist, such as vapor deposition, solid state milling, spray pyrolysis, electrodeposition and solution chemistry.…”

“…Many traditional and conventional methods of magnetic nanoalloy preparation from miscible metals exist, such as vapor deposition, solid state milling, spray pyrolysis, electrodeposition and solution chemistry. [7][8][9][10][11][12][13] Meanwhile, alloys of immiscible metals such as former complexes have to be manufactured by non-conventional methods such as thermal evaporation, vacuum deposition, sputtering, ion beam mixing and pulsed-laser induced quenching. 14,15 A new preparation method of metallic nickel and Co nanoparticles from coordination compounds is reported.…”

Preparation and characterization of Cu–Co alloy nanoparticles from double complex salts by chemical reduction

Changes in the grain boundaries of a nanolamellar structured Co–Cu alloy by annealing

Effect of Cu on the Tribocorrosion Behavior of Antibacterial CoCrMo Alloys in Simulated Biological Environment