A Monte Carlo (MC) simulation methodology using high performance computing (HPC) has been proposed to characterize grain growth kinetics and recrystallisation phenomena during hot rolling of C-Mn and TRIP steels. The simulation framework comprises of mesoscale modelling of evolution of grain growth and microstructure incorporating the system energetics of grain boundary energy and stored energy which are essentially the driving force for the evolution process. An in-house MC computer code has been developed and implemented in the GARUDA grid. This facilitated achieving faster convergence of the MC algorithm for a given lattice structure. The simulated grain growth and microstructure evolution have been successfully validated w...
The paper presents a multi-scale mathematical model dedicated to a comprehensive simulation of resis...
During thermomechanical processing of metals, changes occur in the microstructure of the material wh...
In this paper, we present an isothermal Monte Carlo (MC) algorithm that can be employed to simulate ...
A multiscale modelling framework has been proposed to characterize microstructure evolution during h...
A coupled Monte Carlo simulation technique has been developed for hot rolling of advanced high stren...
The evolution and topology of a two-dimensional austenite grain growth of C‐Mn steel are simulated b...
Understanding and predicting grain growth in Metallurgy is meaningful. Monte Carlo methods have been...
Models for the microstructure evolution during hot rolling are reviewed. The basic macroscopic pheno...
Abstract Controlling the hot rolling process requires a deep understanding of the underlying metallu...
A computational modeling for predicting microstructure evolutions and mechanical properties of steel...
A Monte Carlo computer simulation technique, in which a continuum system is modeled employing a disc...
Improving the steel processing is a major focus of the metallurgical industry because the need of m...
have been used in computer simulations in many different fields of knowledge. Grain growth simulatio...
The paper presents the results of work leading to the construction of a spatial hybrid model based o...
A multiscale modelling procedure has been proposed to character evolution during hot strip rolling o...
The paper presents a multi-scale mathematical model dedicated to a comprehensive simulation of resis...
During thermomechanical processing of metals, changes occur in the microstructure of the material wh...
In this paper, we present an isothermal Monte Carlo (MC) algorithm that can be employed to simulate ...
A multiscale modelling framework has been proposed to characterize microstructure evolution during h...
A coupled Monte Carlo simulation technique has been developed for hot rolling of advanced high stren...
The evolution and topology of a two-dimensional austenite grain growth of C‐Mn steel are simulated b...
Understanding and predicting grain growth in Metallurgy is meaningful. Monte Carlo methods have been...
Models for the microstructure evolution during hot rolling are reviewed. The basic macroscopic pheno...
Abstract Controlling the hot rolling process requires a deep understanding of the underlying metallu...
A computational modeling for predicting microstructure evolutions and mechanical properties of steel...
A Monte Carlo computer simulation technique, in which a continuum system is modeled employing a disc...
Improving the steel processing is a major focus of the metallurgical industry because the need of m...
have been used in computer simulations in many different fields of knowledge. Grain growth simulatio...
The paper presents the results of work leading to the construction of a spatial hybrid model based o...
A multiscale modelling procedure has been proposed to character evolution during hot strip rolling o...
The paper presents a multi-scale mathematical model dedicated to a comprehensive simulation of resis...
During thermomechanical processing of metals, changes occur in the microstructure of the material wh...
In this paper, we present an isothermal Monte Carlo (MC) algorithm that can be employed to simulate ...