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Microstructural evolution of plastically deformed metallic mixtures

TitoloMicrostructural evolution of plastically deformed metallic mixtures
Tipo di pubblicazionePresentazione a Congresso
Anno di Pubblicazione1996
AutoriCardellini, F., Contini V., Mazzone G., Montone Amelia, and M. Antisari Vittori
Conference NameProcessing and Properties of Nanocrystalline Materials
EditoreMinerals, Metals & Materials Soc (TMS)
Conference LocationCleveland, OH, USA
Parole chiaveAluminum nickel alloys, Chemical reactions, Comminution, Compaction, Controlled compression, Copper iron alloys, Copper zinc alloys, Grain size and shape, Interdiffusion (solids), Mechanical alloying, Metallic mixtures, Metallographic microstructure, Metals, Mixtures, Nanometric grain sizes, Nanostructured materials, Nickel zinc alloys, Plastic deformation, Synthesis (chemical)
Abstract

Extensive plastic deformation of metallic mixtures (mechanical alloying) leads to the synthesis of a variety of alloy phases with nanometric grain sizes. Good control of the results of alloying requires to understand the factors which influence the reaction path during the process. This paper reports the information obtained for Cu-Zn, Al-Ni, Ni-Zr and Cu-Fe from the microstructural characterization of samples prepared by ball milling and by controlled compression. It has been found that both the driving force for the solid state reactions and the effective interdiffusion coefficients are markedly affected by the plastic deformation and that an important role may be played by the presence of reactive foreign atoms.

URLhttps://www.scopus.com/inward/record.uri?eid=2-s2.0-0029719241&partnerID=40&md5=355d289f962faa76f7ded2a96cbc128f
Citation KeyCardellini1996177