Challenges In The Modelling Of Scale Formation And Decarburisation Of High Carbon, Special And General Steels

The oxygen bearing gases of the atmosphere producing scale on the surface of the metal and, the surface layers. Modelling of these effects has in a reheating furnace oxidise the feedstock for high carbon steels, cause decarburisation of to take into account the competitive nature of the two processes, scale formation and decarburisation, and complications that arise from changes in the controlling mechanism. Initially, the rate of scale formation may be controlled by effects in the gas phase, or nucleation of scale on the metal surface. Subsequently, scale growth is influenced by the gas composition and may be disturbed by the accumulation of oxidation products at the scale-metal interface. Voids and cracks within the scale may either inhibit solid state diffusion within the scale or provide channels for oxidising gas to access the scale-metal interface. For decarburisation, complications arise if a ferrite rim creates a step in the carbon profile or if retention of carbon monoxide within the scale provides a thermodynamic barrier to the reaction. This paper considers these complications and how they may be handled in mathematical models.