Add to ORKGCrystallization of polymers is modelled as a spatially structured process consisting of a nucleation phase and a growth phase. A counting process approach together with methods of stochastic geometry leads us to the evolution equations of the relevant quantities of the process. In particular we provide local and global convergence of the stochastic growth process to its expected value, thus justifying the use of deterministic models to predict the results of real experiments. Estimates of the relevant parameters of the process are obtained via the maximum likelihood method, and also by a nonparametric method based on the estimation of the hitting function of the associated Boolean model. Asymptotic properties of the estimators are given and...
A new formulation of the recent stochastic approach for the description of the particle-size distrib...
A phenomenological model for the description of antisolvent mediated crystal growth processes is pre...
A stochastic approach to describe the crystal size distribution dynamics in antisolvent based crysta...
Polymer crystallization may be modelled by a stochastic birth-and-growth process, with temperature d...
This paper deals with the process of crystallization. We first present two major models that describ...
The authors consider the Kolmogorov-Avrami model of crystallization. Since at time t the space occu...
A stochastic formulation for the description of antisolvent mediated crystal growth processes is dis...
This paper is devoted to the numerical simulation of nonisothermal crystallization of polymers, whic...
A Johnson-Mehl tessellation arises as a random division of a given bounded region in a d-dimensio...
A stochastic formulation for the description of antisolvent mediated crystal growth processes is dis...
Crystallization of polymers is composed of two processes, nucleation (birth) and subsequent growt...
Birth-and-growth processes provide a large class of mathematical models for many phase change ph...
In this thesis a specific birth and growth process is analyzed; namely a mass crystallization proces...
Cluster distribution kinetics is adopted to explore the kinetics of polymer crystallization. Populat...
A deterministic model of polymer crystallization, derived from a previous stochastic one, is conside...
A new formulation of the recent stochastic approach for the description of the particle-size distrib...
A phenomenological model for the description of antisolvent mediated crystal growth processes is pre...
A stochastic approach to describe the crystal size distribution dynamics in antisolvent based crysta...
Polymer crystallization may be modelled by a stochastic birth-and-growth process, with temperature d...
This paper deals with the process of crystallization. We first present two major models that describ...
The authors consider the Kolmogorov-Avrami model of crystallization. Since at time t the space occu...
A stochastic formulation for the description of antisolvent mediated crystal growth processes is dis...
This paper is devoted to the numerical simulation of nonisothermal crystallization of polymers, whic...
A Johnson-Mehl tessellation arises as a random division of a given bounded region in a d-dimensio...
A stochastic formulation for the description of antisolvent mediated crystal growth processes is dis...
Crystallization of polymers is composed of two processes, nucleation (birth) and subsequent growt...
Birth-and-growth processes provide a large class of mathematical models for many phase change ph...
In this thesis a specific birth and growth process is analyzed; namely a mass crystallization proces...
Cluster distribution kinetics is adopted to explore the kinetics of polymer crystallization. Populat...
A deterministic model of polymer crystallization, derived from a previous stochastic one, is conside...
A new formulation of the recent stochastic approach for the description of the particle-size distrib...
A phenomenological model for the description of antisolvent mediated crystal growth processes is pre...
A stochastic approach to describe the crystal size distribution dynamics in antisolvent based crysta...