Article: Rapid solidification of plasma sprayed advanced materials: nanostructure characterisation Journal: International Journal of Materials and Product Technology (IJMPT) 2004 Vol.20 No.5/6 pp.377 - 391 Abstract: Composite ZrB2-SiC materials offer well known resistance to ablation at high temperature. An inert plasma spraying technique was used to manufacture composite ZrB2-SiC as potential thermal protection systems for composite based substrates. Due to the rapid solidification experienced by sprayed droplets, amorphous and/or nanostructured phases can be formed; advanced characterization techniques are therefore required in order to collect all the necessary data for process/product optimisation. In addition, silicon carbide, selected for its contribution to the oxidation resistance of the ceramic coating, is well known to be considered as a non sprayable material, due to the lack of a stable liquid phase. In this paper, two issues are investigated: the first is the use of advanced characterization techniques, such as high resolution scanning and transmission electron microscopy, for microstructural analysis of plasma sprayed coatings. The second is the evaluation of possible implications of rapid solidification processes in composite systems for which at least one liquid phase is not stable, but, at the same time, the development of eutectic-like structures results in the formation of nanostructured stable solid phases. Inderscience Publishers - linking academia, business and industry through research

Title: Rapid solidification of plasma sprayed advanced materials: nanostructure characterisation

Authors: C. Bartuli, T. Valente, E. Bemporad, F. Carassiti

Addresses: University of Rome ''La Sapienza'', Department of Chemical and Materials Engineering, Via Eudossiana, 18-00184 Rome RM, Italy. ' University of Rome ''La Sapienza'', Department of Chemical and Materials Engineering, Via Eudossiana, 18-00184 Rome RM, Italy. ' University ''Roma Tre'', Department of Mechanical and Industrial Engineering, Via della Vasca Navale 79-00146 Rome RM, Italy. ' University ''Roma Tre'', Department of Mechanical and Industrial Engineering, Via della Vasca Navale 79-00146 Rome RM, Italy

Abstract: Composite ZrB2-SiC materials offer well known resistance to ablation at high temperature. An inert plasma spraying technique was used to manufacture composite ZrB2-SiC as potential thermal protection systems for composite based substrates. Due to the rapid solidification experienced by sprayed droplets, amorphous and/or nanostructured phases can be formed; advanced characterization techniques are therefore required in order to collect all the necessary data for process/product optimisation. In addition, silicon carbide, selected for its contribution to the oxidation resistance of the ceramic coating, is well known to be considered as a non sprayable material, due to the lack of a stable liquid phase. In this paper, two issues are investigated: the first is the use of advanced characterization techniques, such as high resolution scanning and transmission electron microscopy, for microstructural analysis of plasma sprayed coatings. The second is the evaluation of possible implications of rapid solidification processes in composite systems for which at least one liquid phase is not stable, but, at the same time, the development of eutectic-like structures results in the formation of nanostructured stable solid phases.

Keywords: plasma spray; CAPS; ZrB2-SiC; eutectic; nanostructure; TEM; SAD; thermal protection system; composites; rapid solidification; silicon carbide; advanced materials.

DOI: 10.1504/IJMPT.2004.004776

International Journal of Materials and Product Technology, 2004 Vol.20 No.5/6, pp.377 - 391

Published online: 07 Jul 2004 *

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Title: Rapid solidification of plasma sprayed advanced materials: nanostructure characterisation

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