| Numéro |
J. Phys. IV France
Volume 03, Numéro C7, Novembre 1993
The 3rd European Conference on Advanced Materials and ProcessesTroisiéme Conférence Européenne sur les Matériaux et les Procédés Avancés |
|
|---|---|---|
| Page(s) | C7-1699 - C7-1704 | |
| DOI | https://doi.org/10.1051/jp4:19937266 | |
The 3rd European Conference on Advanced Materials and Processes
Troisiéme Conférence Européenne sur les Matériaux et les Procédés Avancés
J. Phys. IV France 03 (1993) C7-1699-C7-1704
DOI: 10.1051/jp4:19937266
IRC in Materials for High Performance Applications, University of Birmingham, Edgbaston, Birmingham B15 2TT, U.K.
© EDP Sciences 1993
Troisiéme Conférence Européenne sur les Matériaux et les Procédés Avancés
J. Phys. IV France 03 (1993) C7-1699-C7-1704
DOI: 10.1051/jp4:19937266
Modelling of high temperature interfacial reactions in continuously reinforced Ti/SiC metal matrix composites (MMCs)
K.M. FOXIRC in Materials for High Performance Applications, University of Birmingham, Edgbaston, Birmingham B15 2TT, U.K.
Abstract
Previous experimental work by Gundel and Wawner showed that the matrix alloy has a strong effect on reaction layer growth in Ti alloy/SCS-6 composite systems. A finite difference technique was used to model the reaction layer growth, which predicts the same trends as those exhibited by the experimental data. Matrix alloying elements such as Mo and Cr in metastable ß alloys will affect the equilibrium compositions and diffusivities in the matrix, but matrix diffusion is not found to be rate controlling. Regular solution thermodynamic models indicate that the main affect of matrix composition is in controlling carbon-flux through the reaction layer by altering equilibrium C-TiC-Ti interfacial compositions.
© EDP Sciences 1993