Diffusion-controlled rate mechanisms in gas-solid reaction systems

Gas-solid reactions in chemical and metallurgical industries often involve solid pellets and a gaseous reactant. The progress of chemical reaction is measured by the movement of zones within the pellet and has been explained in terms of diffusion and chemical reaction processes. Earlier models ident

Reaction kinetics with diffusion control mechanisms are investigated to model the later-stage cure progressing in a co-cured epoxy network that was formed by blending and heating bisphenol-A polycarbonate (PC) with tetraglycidyl-4,4 -diaminodiphenylmethane (TGDDM), which together were cured with an

Diffuse Interface Model (DIM) is introduced to describe the mechanism of hightemperature corrosion/internal oxidation. The zone has dissolved oxygen and metal atoms diffuse and react resulting in the inward movement of zone. The high-temperature oxidation data for cobalt, iron, and nickel, which are