THERMODYNAMIC ANALYSIS OF PHASE FORMATION IN MECHANICAL ALLOYED Fe3Al POWDER

Nanocrystalline supersaturated solid solutions were formed by mechanically alloyed Fe-28Al (in atom percent) from the elemental powder of iron and aluminum. Phase evolution, grain size and lattice strain of these powders were determined and discussed. A thermodynamic model was developed based on semi-experimental theory of Miedema to calculate the chemical driving force for phase evolution. The influence of thermodynamic driving forces, namely the Gibbs free energy of mixing, for the solid solution and the amorphous was discussed and corresponded to the sequence of phase formations during mechanical alloying.

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Year of publication:	2011
Authors:	PANG, L. X. ; HAO, X. H. ; HAN, N. F. ; XU, J. ; TANG, X. D. ; LI, J.
Published in:	Surface Review and Letters (SRL). - World Scientific Publishing Co. Pte. Ltd., ISSN 1793-6667. - Vol. 18.2011, 03, p. 115-120
Publisher:	World Scientific Publishing Co. Pte. Ltd.

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Extent:	application/pdf text/html
Type of publication:	Article
Source:	RePEc - Research Papers in Economics

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