Ball milling (BM) a Cu nanopowder resulted in an increase of the average grain size from 8 to 52 nm, followed by a gradual decrease to 19 nm. In contrast, the grain size of coarse-grained Cu decreased monotonically from 290 nm to 19 nm. Fitting a model to the kinetic curves indicates that the two processes have similar activated volumes during collisions. It also reveals that particles over 100 nm are formed when nanoparticles are compressed during a collision for the first time.

Non-monotonic variation of the grain size in Cu nanopowders subjected to ball milling

LASIO, BARBARA;PIA, GIORGIO;ORRU', ROBERTO;DELOGU, FRANCESCO
2018-01-01

Abstract

Ball milling (BM) a Cu nanopowder resulted in an increase of the average grain size from 8 to 52 nm, followed by a gradual decrease to 19 nm. In contrast, the grain size of coarse-grained Cu decreased monotonically from 290 nm to 19 nm. Fitting a model to the kinetic curves indicates that the two processes have similar activated volumes during collisions. It also reveals that particles over 100 nm are formed when nanoparticles are compressed during a collision for the first time.
2018
Ball milling; Metals and alloys; Microstructure; Kinetics
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11584/226173
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