Evaluation of Physical Parameters in Modelling Softening-Precipitation Interaction in Hot Worked Nb Microalloyed Austenite

Abstract: The interaction between softening and precipitation mechanisms in hot worked Nb microalloyed austenite is analysed with the help of a physically based model. The model is able to calculate the evolution over time of the dislocation density (stress), stored energy and precipitate pinning force, the recrystallized fraction, the average precipitate diameter and precipitate number density, as well as the concentrations of the precipitating Nb over time. It is assumed that nucleation of precipitates occurs heteroge… Show more

“…Recently, there has been a tendency to develop physically based models to study strain-induced precipitation. [9][10][11] However, these models require the fit of physical unknown parameters, and their application to industrial conditions continue to be difficult. As a consequence, empirical and semi-empirical models remain a good alternative for understanding and improving industrial sequences.…”

Improved Model of Kinetics of Strain Induced Precipitation and Microstructure Evolution of Nb Microalloyed Steels during Multipass Rolling

“…Recently, there has been a tendency to develop physically based models to study strain-induced precipitation. [9][10][11] However, these models require the fit of physical unknown parameters, and their application to industrial conditions continue to be difficult. As a consequence, empirical and semi-empirical models remain a good alternative for understanding and improving industrial sequences.…”

Improved Model of Kinetics of Strain Induced Precipitation and Microstructure Evolution of Nb Microalloyed Steels during Multipass Rolling

Analysis of the Effect of Al on the Static Softening Kinetics of C-Mn Steels Using a Physically Based Model

Physical Modelling of the Interaction between Softening and Nb (C,N) Strain-Induced Precipitation in High-Mn Steels