RT Journal Article ID 5407b5c16b0fa721 A1 Elfimov, Yu. A. A1 Ivanov, A. O. T1 A Mathematical Model of Surface-Reaction Diffusion JF International Journal of Fluid Mechanics Research JO FMR YR 2000 FD 2000-09-01 VO 27 IS 2-4 SP 312 OP 319 AB Contact between two solid reagents, when the atoms of one of them exhibit high mobility over the surface of the other may result in a rapid surface diffusion penetration accompanied by a chemical reaction. In the case of reactions with participation of solid substances with low surface energy (tungsten, molybdenum and vanadium oxides) the diffusion was experimentally found to cease entirely when the visible boundary of the surface reaction moved through a certain, critical, not temperature dependent, distance. The article discusses a mathematical model of this phenomenon, constructed by subdividing the total reagent flux into the surface, intergranular and intragranular diffusion fluxes. The analytic solution was obtained on the assumption that the limiting factor of the process consists in slow motion of the front of chemical reaction into the grains of the substrate material. The model predicts stabilization of the surface concentration distribution of the reaction product. The analytic results were verified on the basis of experimental data for the CuO + MoO3 → CuMoO4 system. The temperature dependence of the characteristic time of stabilization of the length of the surface layer is described by the Arrhenius law, corresponding to the temperature variation of the chemical reaction constant. PB Begell House LK https://www.dl.begellhouse.com/journals/71cb29ca5b40f8f8,57dfe970772dec35,5407b5c16b0fa721.html