Mechanism of oxidation/deoxidation of liquid silicon: theoretical analysis and interpretation of experimental surface tension data
Author:
Publisher
Elsevier BV
Subject
Materials Chemistry,Inorganic Chemistry,Condensed Matter Physics
Reference23 articles.
1. Chemical Thermodynamics of Materials;Lupis,1983
2. ENHANCEMENT OF DIFFUSION-LIMITED RATES OF VAPORIZATION OF METALS
3. Passivity during the Oxidation of Silicon at Elevated Temperatures
4. The temperature coefficient of the surface tension of pure liquid metals
5. Proceedings of the International Conference on High Temperature Capillarity;Niu,1997
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