Title of article
Guest editorial
Author/Authors
Yves Rémond، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2005
Pages
2
From page
351
To page
352
Abstract
SiC fibres are a complex system of heterogeneous nanophases. We used Raman microspectrometry to monitor the chemical changes of carbon phases and SiC nanocrystals in such fibres submitted to an alkali and oxidant environment (modelled by molten NaNO3). Specific study of Nicalon-NLM®, Tyranno SA3® and Sylramic® fibres allowed to evidence that surface and volume properties are different. Chemical and/or strain gradients change during corrosion. The important reactivity of the fibre’s core is supposed to be linked to the easy intercalation of Na+ ions, which accelerates the oxidant species diffusion. Singular areas that were hardly strained during microindentation tests on SCS-6® fibres (a model for composites with self-healing interfaces like (SiC/C/BN)), were analysed using Rayleigh microspectrometry to determine the surface geometry.
Keywords
SiC , Nanophase , Fibre , Corrosion , Indentation
Journal title
COMPOSITES SCIENCE AND TECHNOLOGY
Serial Year
2005
Journal title
COMPOSITES SCIENCE AND TECHNOLOGY
Record number
1040127
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