Litcius/Paper detail

Modelling of the diffusional austenite-ferrite transformation

Matthias Militzer, Christopher Hutchinson, Hatem S. Zurob, Gorō Miyamoto

2022International Materials Reviews21 citationsDOI

Abstract

The austenite-ferrite transformation is the key metallurgical tool to tailor properties of low alloyed steels and remains an active area of research. Models have yet to be developed with truly predictive capabilities for phase transformations in multi-component commercial steels. This review provides a critical analysis of the various austenite-to-ferrite diffusional transformation model approaches that have been significantly broadened over the past decade by modelling at different length scales, i.e. classical macro-scale models have been augmented with simulations at the meso-scale and atomistic scale. Both semi-empirical and fundamental models are reviewed with an emphasis on polygonal ferrite formation in low and medium carbon steels. Formation of ferrite with more complex morphologies (i.e. irregular/bainitic/Widmanstätten ferrite) is also discussed. In particular, approaches to describe the interaction of alloying elements with the austenite-ferrite interface are critically analysed. The paper concludes with an outlook on the proposed austenite-ferrite transformation modelling work for the next decade.

Topics & Concepts

AusteniteFerrite (magnet)Materials scienceBeta ferriteMetallurgyMicrostructureComposite materialMicrostructure and Mechanical Properties of SteelsMagnetic Properties and ApplicationsMetallurgy and Material Forming
Modelling of the diffusional austenite-ferrite transformation | Litcius