Abstract The interaction of different alloying elements has a significant impact on the mechanical and microstructural properties of steel products due to the thermodynamic and kinetic effect. This article presents a statistically developed and validated model for austenite decomposition during cooling, based on a set of experimental continuous cooling transformation diagrams available in literature. In the model, two-way interactions of the alloying elements are included as add-on terms, and the procedure for the analysis ensures there is no overfitting. The model can be used to predict phase transformation temperatures and critical cooling rates for the formation of polygonal ferrite, bainite or martensite for the production of steel
Abstract: the aim of this work is to include the metallurgical behaviour of steels (and specifically...
The temperature at which a new phase forms is an important parameter in the genesis of final microst...
the aim of this work is to include the metallurgical behaviour of steels (and specifically their pha...
The microstructure of a steel is often developed by solid-state transformation from austenite. The m...
The microstructure of a steel is often developed by solid-state transformation from austenite. The m...
Abstract Hot deformation and cooling together with the chemical composition define the final mechani...
Abstract A computational model based on the Johnson-Mehl-Avrami-Kolmogorov equation for simulating t...
We present a computational method for calculating the phase transformation start for arbitrary cooli...
Abstract We present a computational method for calculating the phase transformation start for arbitr...
Abstract New continuous cooling transformation (CCT) equations have been optimized to calculate the...
Funding Information: This research was conducted within the framework of the Genome of Steel project...
With the ultimate objective of quantitatively predicting the mechanical properties of steels, a math...
The process of transformation on the run-out table of a hot strip mill critically determines the fin...
The austenite decomposition has been investigated in a hypo-eutectoid plain carbon steel under conti...
The purpose of the present work is the implementation and validation of a model able to predict the ...
Abstract: the aim of this work is to include the metallurgical behaviour of steels (and specifically...
The temperature at which a new phase forms is an important parameter in the genesis of final microst...
the aim of this work is to include the metallurgical behaviour of steels (and specifically their pha...
The microstructure of a steel is often developed by solid-state transformation from austenite. The m...
The microstructure of a steel is often developed by solid-state transformation from austenite. The m...
Abstract Hot deformation and cooling together with the chemical composition define the final mechani...
Abstract A computational model based on the Johnson-Mehl-Avrami-Kolmogorov equation for simulating t...
We present a computational method for calculating the phase transformation start for arbitrary cooli...
Abstract We present a computational method for calculating the phase transformation start for arbitr...
Abstract New continuous cooling transformation (CCT) equations have been optimized to calculate the...
Funding Information: This research was conducted within the framework of the Genome of Steel project...
With the ultimate objective of quantitatively predicting the mechanical properties of steels, a math...
The process of transformation on the run-out table of a hot strip mill critically determines the fin...
The austenite decomposition has been investigated in a hypo-eutectoid plain carbon steel under conti...
The purpose of the present work is the implementation and validation of a model able to predict the ...
Abstract: the aim of this work is to include the metallurgical behaviour of steels (and specifically...
The temperature at which a new phase forms is an important parameter in the genesis of final microst...
the aim of this work is to include the metallurgical behaviour of steels (and specifically their pha...