The prediction of material microstructure is of great interest to the material designers since the property and performance of materials depend strongly on their microstructures. In this work, a Monte Carlo approach is used to investigate the normal grain growth of aluminum and pure copper. The grain growth was calculated at certain temperatures using the grain growth law and compared with the simulation results by varying the Q as a parameter of simulation lattice orientation for pure aluminum. Also the results predicted by the Monte Carlo method showed a good agreement with the experimental results of grain growth of pure cooper. It was found that increase in Q increases the accuracy of the predicted results and the Monte Carlo method can...
One of the main purposes in Materials Science remains the control of the microstructure because it i...
Numerical simulations based on the Monte Carlo Potts model are used to study coupling of grain growt...
Most engineering alloys are used in polycrystalline form. This means that they are made of a large n...
Understanding and predicting grain growth in Metallurgy is meaningful. Monte Carlo methods have been...
have been used in computer simulations in many different fields of knowledge. Grain growth simulatio...
© 2022 The Author(s)Prediction of microstructure evolution is important to design structural materia...
Isothermal grain growth in aluminium, copper and α-iron was investigated experimentally at elevated ...
In this paper, we present an isothermal Monte Carlo (MC) algorithm that can be employed to simulate ...
The evolution and topology of a two-dimensional austenite grain growth of C‐Mn steel are simulated b...
Microstructural evolution due to aging of solder alloys determines their long-term reliability as el...
Abstract. The Monte Carlo simulation is utilized to model the nano-scale grain growth of two nano-cr...
Over the past few decades, a variety of models have been proposed in order to investigate the grain ...
A simulation procedure for grain growth has been developed which accounts for local structure and to...
Applicability of Monte-Carlo method for the textural and microstructural changes during annealing pr...
A Monte Carlo (MC) procedure was applied to study static recrystallization processes. The initial mi...
One of the main purposes in Materials Science remains the control of the microstructure because it i...
Numerical simulations based on the Monte Carlo Potts model are used to study coupling of grain growt...
Most engineering alloys are used in polycrystalline form. This means that they are made of a large n...
Understanding and predicting grain growth in Metallurgy is meaningful. Monte Carlo methods have been...
have been used in computer simulations in many different fields of knowledge. Grain growth simulatio...
© 2022 The Author(s)Prediction of microstructure evolution is important to design structural materia...
Isothermal grain growth in aluminium, copper and α-iron was investigated experimentally at elevated ...
In this paper, we present an isothermal Monte Carlo (MC) algorithm that can be employed to simulate ...
The evolution and topology of a two-dimensional austenite grain growth of C‐Mn steel are simulated b...
Microstructural evolution due to aging of solder alloys determines their long-term reliability as el...
Abstract. The Monte Carlo simulation is utilized to model the nano-scale grain growth of two nano-cr...
Over the past few decades, a variety of models have been proposed in order to investigate the grain ...
A simulation procedure for grain growth has been developed which accounts for local structure and to...
Applicability of Monte-Carlo method for the textural and microstructural changes during annealing pr...
A Monte Carlo (MC) procedure was applied to study static recrystallization processes. The initial mi...
One of the main purposes in Materials Science remains the control of the microstructure because it i...
Numerical simulations based on the Monte Carlo Potts model are used to study coupling of grain growt...
Most engineering alloys are used in polycrystalline form. This means that they are made of a large n...