Some difficulties in the theory of diffusion-controlled growth in substitutionally alloyed steels

H. K. D. H. Bhadeshia

Abstract

The theory for the diffusion-controlled growth of ferrite in steels that also contain substitutional solutes is fraught with difficulties when it comes to transformation at large supersaturations, where the bulk compositions of the ferrite and austenite do not differ much, but where local-equilibrium is nevertheless maintained at the transformation front. This requires the existence of a narrow variation in substitutional solute content in the austenite at the interface (so-called ‘concentration spike’) - so narrow that it has no physical meaning. Drawing on the theory for spinodal reactions, it is demonstrated here that there is a substantial penalty associated with the creation of such sharp changes in composition. Therefore, the spikes would never occur in practice. The actual distribution of solute would be over distances orders of magnitude larger than currently calculated, leading to slower growth rates than are predicted currently. The consequences of this conclusion place doubt both on the transition from local to paraequilibrium, and whether the latter state exists at all for reconstructive transformations.

Current Opinion in Solid State and Materials Science 20 (2016) 396-400. DOI https://dx.doi.org/10.1016/j.cossms.2016.07.004

Download paper

Download images etc.


Related papers




Hydrogen TWIP Nuclear growth Maraging steel Bearings Bainitic powder
Duplex steel Tetragonal ferrite Bainitic powder Severe tempering Surface hydrogen
Hydrogen TRIP Broken bainite Bearing steel HCP martensite Mn TRIP
Mixed Creep Extraordinary ductility Problems Mechanical stabilisation


PT Group Home Materials Algorithms