Influence of the Active Particles on the Self-Healing Efficiency in Glassy Matrix

In the present paper, we present the influence of the composition of the active particles on the self‐healing property in glass–particles (B, B4C, VB, V, or VC) composites. The thermogravimetric curves and oxidation kinetics at 700 °C of the active particles are reported. We show that the oxidation...

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Bibliographic Details
Published in:Advanced engineering materials 2011-05, Vol.13 (5), p.426-435
Main Authors: Coillot, Daniel, Méar, François O., Podor, Renaud, Montagne, Lionel
Format: Article
Language:English
Subjects:
Chemical Sciences
Cracks
Glassy
Healing
Material chemistry
Oxidation
Oxides
Particulate composites
Phases
Vanadium pentoxide
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Summary:In the present paper, we present the influence of the composition of the active particles on the self‐healing property in glass–particles (B, B4C, VB, V, or VC) composites. The thermogravimetric curves and oxidation kinetics at 700 °C of the active particles are reported. We show that the oxidation rate is higher with vanadium‐based particles than with boron‐base ones, mainly due to the formation of B2O3 that acts as a diffusion barrier to oxygen. In situ healing of cracks in composites was observed using high‐temperature environmental scanning electron microscopy (HT‐ESEM). The composition of the phases formed by reaction between the oxidation products and the glassy matrix is systematically determined. Self‐healing occurs as a consequence of oxidation of active particles, which leads to the formation of an oxide, such as V2O5 and/or B2O3 that is fluid enough to fill in the crack at high temperature. The crack healing is obtained whatever the nature of the active particle. In the present paper, we present the influence of the composition of the active particles on the self‐healing property in glass – particles (B, B4C, VB, V or VC) composites. In situ healing of cracks in composites was observed using high‐temperature environmental scanning electron microscopy. Self‐healing occurs as a consequence of oxidation of active particles, which leads to the formation of an oxide, such as V2O5 and/or B2O3 that is fluid enough to fill in the crack at high temperature.
ISSN:1438-1656
1527-2648
1527-2648
DOI:10.1002/adem.201100002