Add to ORKGThe kinetics of amorphization during ball milling is generally analyzed using two different approaches: the classical Johnson-Mehl-Avrami-Kolmogorov (JMAK) theory and Delogu and Cocco’s model for which a region deterministically transforms after it reaches a certain number of collisions. The application of JMAK analysis to the latter model predicts Avrami exponents to be higher than the experimental ones (typically close to one). We develop simulations based on the probabilistic character of the nucleation phenomenon and concave growth of the amorphous phase in the core of a nanocrystal. The predictions of our simulations are in good agreement with the low Avrami exponents and with the size evolution of the remaining crystallites fou...
An analytical theory has been developed, based on Monte Carlo (MC) simulations, describing the kinet...
An analytical theory has been developed, based on Monte Carlo (MC) simulations, describing the kinet...
An analytical theory has been developed, based on Monte Carlo (MC) simulations, describing the kinet...
The kinetics of amorphization during ball milling is generally analyzed using two different approach...
The kinetics of amorphization during ball milling is generally analyzed using two different approac...
We propose a simple, versatile, and fast computational model to understand the deviations from the w...
We propose a simple, versatile, and fast computational model to understand the deviations from the w...
The classical Johnson-Mehl-Avrami-Kolmogorov (JMAK) equation [F = 1 - exp(- kt)n] for nucleation and...
We propose a simple and versatile model to understand the deviations from the well-known Kolmogorov-...
Two different simulation approaches have been used to describe nanocrystallization processes: a limi...
We propose a simple, versatile, and fast computational model to understand the deviations from the w...
In this work, we propose a model for using the classical Johnson-Mehl-Avrami-Kolmogorov (JMAK) cryst...
The classical theory of solid-state transformation based on nucleation and growth processes, develop...
We propose a simple, versatile, and fast computational model to understand the deviations from the w...
We propose a simple, versatile, and fast computational model to understand the deviations from the w...
An analytical theory has been developed, based on Monte Carlo (MC) simulations, describing the kinet...
An analytical theory has been developed, based on Monte Carlo (MC) simulations, describing the kinet...
An analytical theory has been developed, based on Monte Carlo (MC) simulations, describing the kinet...
The kinetics of amorphization during ball milling is generally analyzed using two different approach...
The kinetics of amorphization during ball milling is generally analyzed using two different approac...
We propose a simple, versatile, and fast computational model to understand the deviations from the w...
We propose a simple, versatile, and fast computational model to understand the deviations from the w...
The classical Johnson-Mehl-Avrami-Kolmogorov (JMAK) equation [F = 1 - exp(- kt)n] for nucleation and...
We propose a simple and versatile model to understand the deviations from the well-known Kolmogorov-...
Two different simulation approaches have been used to describe nanocrystallization processes: a limi...
We propose a simple, versatile, and fast computational model to understand the deviations from the w...
In this work, we propose a model for using the classical Johnson-Mehl-Avrami-Kolmogorov (JMAK) cryst...
The classical theory of solid-state transformation based on nucleation and growth processes, develop...
We propose a simple, versatile, and fast computational model to understand the deviations from the w...
We propose a simple, versatile, and fast computational model to understand the deviations from the w...
An analytical theory has been developed, based on Monte Carlo (MC) simulations, describing the kinet...
An analytical theory has been developed, based on Monte Carlo (MC) simulations, describing the kinet...
An analytical theory has been developed, based on Monte Carlo (MC) simulations, describing the kinet...