We present a computational method for calculating the phase transformation start for arbitrary cooling paths and for different steel compositions after thermomechanical treatments. We apply the method to quantitatively estimate how much austenite deformation and how many different alloying elements affect the transformation start at different temperatures. The calculations are done for recrystallized steel as well as strain hardened steel, and the results are compared. The method is parameterized using continuous cooling transformation (CCT) data as an input, and it can be easily adapted for different thermomechanical treatments when corresponding CCT data is available. The analysis can also be used to obtain estimates for the range of valu...
The austenite decomposition has been investigated in a hypo-eutectoid plain carbon steel under conti...
Abstract In work the presented numerical models of tool steel hardening processes take into account ...
The temperature at which a new phase forms is an important parameter in the genesis of final microst...
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 A computational model based on the Johnson-Mehl-Avrami-Kolmogorov equation for simulating t...
Abstract The interaction of different alloying elements has a significant impact on the mechanical ...
The design of thermomechanical processing schedules to control microstructures requires the knowledg...
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 New continuous cooling transformation (CCT) equations have been optimized to calculate the...
Abstract Hot deformation and cooling together with the chemical composition define the final mechani...
Funding Information: This research was conducted within the framework of the Genome of Steel project...
A phase-field simulation is performed to study the kinetics of austenite to ferrite ( : ) transform...
The rapid heating and cooling in a grinding process may cause phase transformations. This will intro...
The austenite decomposition has been investigated in a hypo-eutectoid plain carbon steel under conti...
Abstract In work the presented numerical models of tool steel hardening processes take into account ...
The temperature at which a new phase forms is an important parameter in the genesis of final microst...
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 A computational model based on the Johnson-Mehl-Avrami-Kolmogorov equation for simulating t...
Abstract The interaction of different alloying elements has a significant impact on the mechanical ...
The design of thermomechanical processing schedules to control microstructures requires the knowledg...
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 New continuous cooling transformation (CCT) equations have been optimized to calculate the...
Abstract Hot deformation and cooling together with the chemical composition define the final mechani...
Funding Information: This research was conducted within the framework of the Genome of Steel project...
A phase-field simulation is performed to study the kinetics of austenite to ferrite ( : ) transform...
The rapid heating and cooling in a grinding process may cause phase transformations. This will intro...
The austenite decomposition has been investigated in a hypo-eutectoid plain carbon steel under conti...
Abstract In work the presented numerical models of tool steel hardening processes take into account ...
The temperature at which a new phase forms is an important parameter in the genesis of final microst...