Kinetics behaviour of metastable equiatomic Cu-Fe solid solution as function of the number of collisions induced by mechanical alloying
Articolo
Data di Pubblicazione:
2014
Citazione:
Kinetics behaviour of metastable equiatomic Cu-Fe solid solution as function of the number of collisions induced by mechanical alloying / Contini, A; Delogu, F; Garroni, Sebastiano; Mulas, Gabriele Raimondo Celestino Ettore; Enzo, Stefano. - In: JOURNAL OF ALLOYS AND COMPOUNDS. - ISSN 0925-8388. - 615:(2014), pp. S551-S554. [10.1016/j.jallcom.2013.11.232]
Abstract:
We have addressed a new study by mechanical alloying on the nominally immiscible Cu50Fe50 system
with the aim of relating the solid state transformation process, with formation of a disordered unstable
solid solution having the face centered cubic habit, to parameters reflecting the impulsive, discontinuous
nature of the process. The milling set-up, tools and powder were adjusted in order to ensure completely
anelastic hits. Phase analysis, structure and microstructure parameters of such powder system have been
followed accurately in the course of the kinetics by X-ray Diffraction using the Rietveld method. The
experimental kinetics data points of the amount of transformed solid solution show a typical sigmoidal
behavior. It was assumed that dissolution only occurs in the volumes of material that have undergone the
necessary critical loading conditions, which is accounted by a discrete series expansion. The mass fraction
effectively processed at each collision can be regarded as an apparent rate constant for the microstructural
refinement and phase transformation processes. Analysis of model curves fitting the experimental
data suggests that it takes up an average of 6 impacts of coupled powder particles to drive the system to
the new unstable nano-crystalline state.
with the aim of relating the solid state transformation process, with formation of a disordered unstable
solid solution having the face centered cubic habit, to parameters reflecting the impulsive, discontinuous
nature of the process. The milling set-up, tools and powder were adjusted in order to ensure completely
anelastic hits. Phase analysis, structure and microstructure parameters of such powder system have been
followed accurately in the course of the kinetics by X-ray Diffraction using the Rietveld method. The
experimental kinetics data points of the amount of transformed solid solution show a typical sigmoidal
behavior. It was assumed that dissolution only occurs in the volumes of material that have undergone the
necessary critical loading conditions, which is accounted by a discrete series expansion. The mass fraction
effectively processed at each collision can be regarded as an apparent rate constant for the microstructural
refinement and phase transformation processes. Analysis of model curves fitting the experimental
data suggests that it takes up an average of 6 impacts of coupled powder particles to drive the system to
the new unstable nano-crystalline state.
Tipologia CRIS:
1.1 Articolo in rivista
Keywords:
Mechanical Alloying; Kinetics; X-ray Diffraction
Elenco autori:
Contini, A; Delogu, F; Garroni, Sebastiano; Mulas, Gabriele Raimondo Celestino Ettore; Enzo, Stefano
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