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Philosophical Magazine Volume 86, 2006 - Issue 3-5: Proceedings of the 9th International Conference on Quasicrystals, 22–26 May 2005, Part 1. Guest Editors: Cynthia J. Jenks, Daniel J. Sordelet and Patricia Thiel
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Original Articles

Influence of oxidation of i-AlCuFeB particles on the formation of Al-based composites prepared by solid state sintering

S. Kenzari Laboratoire de Science et Génie des Matériaux et de Métallurgie (LSG2M), CNRS-UMR 7584, Parc de Saurupt, ENSMN, 54042 NANCY Cedex, France
,
P. Weisbecker Laboratoire de Science et Génie des Matériaux et de Métallurgie (LSG2M), CNRS-UMR 7584, Parc de Saurupt, ENSMN, 54042 NANCY Cedex, France
,
G. Geandier European Synchrotron Radiation Facility, BP 220, F-38043 GRENOBLE Cedex, France
,
V. Fournee Laboratoire de Science et Génie des Matériaux et de Métallurgie (LSG2M), CNRS-UMR 7584, Parc de Saurupt, ENSMN, 54042 NANCY Cedex, FranceCorrespondence[email protected]
&
J. M. Dubois Laboratoire de Science et Génie des Matériaux et de Métallurgie (LSG2M), CNRS-UMR 7584, Parc de Saurupt, ENSMN, 54042 NANCY Cedex, France
Pages 287-292 | Received 11 May 2005, Accepted 07 Jul 2005, Published online: 21 Aug 2006
 
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Abstract

We present new results concerning the formation of Al-based composites reinforced by icosahedral i-Al59Cu25.5Fe12.5B3 quasicrystalline particles. The issue is to limit the diffusion of Al from the matrix to the quasicrystalline particles during sintering in order to overcome the transformation of the i-phase into the ω-Al7Cu2Fe tetragonal phase. Here we have investigated the influence of an oxidation pre-treatment of the quasicrystalline particles onto the kinetics of this phase transformation by high energy X-ray diffraction. The quasicrystalline particles were annealed either in vacuum or in air, leading to a different thickness of the oxide layer. We show that the oxide barrier efficiently reduces the kinetics of Al diffusion, enabling the formation of composite materials with no phase transformation during the sintering process. The dependence of the tribological properties of these composites is investigated as a function of the volume fraction of i-AlCuFeB particles.

Acknowledgements

The authors would like to thank the staff of the ID15B beamline of the European Synchrotron Radiation Facility for their technical assistance. They are grateful to S. Raffy (St Gobain) for the provision of atomized powder. This work was supported by the ADEME agency.

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