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Microstructure evolution in a nanocrystalline CoCrFeNi multi-principal element alloy during annealing

Pham Tran Hung, Megumi Kawasaki, Jae‐Kyung Han, János L. Lábár, Jenõ Gubicza

2020Materials Characterization30 citationsDOIOpen Access PDF

Abstract

Experiments were conducted for the study of the evolution of the microstructure in a nanocrystalline CoCrFeNi multi-principal element alloy during annealing. The nanocrystalline state was achieved by high-pressure torsion (HPT) which is a well-defined severe plastic deformation technique. The heat treatment of the nanocrystalline CoCrFeNi alloy was performed in a differential scanning calorimeter (DSC). It was found that the thermogram contains two exothermic peaks with maxima at about 680 and 870 K. For further analysis, a different set of the samples were annealed to temperatures below and above the two DSC peaks. It was revealed the first exothermic peak was related to the decrease of the density of lattice defects (dislocations and twin faults) while the grain size remained consistent. The comparison of the measured and the calculated released heat values suggested that during this recovery a high concentration of excess vacancies was annihilated (about 10−3). The second exothermic peak corresponded to the recrystallization of the microstructure when the grain size increased from about 60 nm to about 660 nm. It was revealed that the hardness of the nanocrystalline CoCrFeNi alloy remained unchanged during recovery (first DSC peak) while recrystallization (second DSC peak) caused a decrease of the hardness from about 5100 MPa to about 3200 MPa.

Topics & Concepts

Materials scienceNanocrystalline materialMicrostructureDifferential scanning calorimetryAlloyAnnealing (glass)Severe plastic deformationRecrystallization (geology)Grain sizeExothermic reactionComposite materialMetallurgyThermodynamicsNanotechnologyPaleontologyBiologyPhysicsHigh Entropy Alloys StudiesMetal Alloys Wear and PropertiesHigh-Temperature Coating Behaviors
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