This paper summarizes recent developmentsof a rigorous kinetic method for medelling of a non-linear irreversible polymerizations with a finite number of intramolecular cyclizations. Some Changes have been introduced in order to perform much more efficient computations with polyadditions. The procedure for obtainning z-averaged distributions of gyration radius for gaussian chain molecules is briefly described. Chain lengh distributions gel properties (such as the concentrations of elastically active junctions and chains) and average gyration radii were computed for non-radical copolymerization of monomers with one and with two terminal double bonds. Predictions of average molecular weights gelation for free radical copolymerization of that s...
Prediction of Average Radius of Gyration of Branched Polymers by a Kinetic ApproachFC
A kinetic gelation model that incorporates the kinetics of free radical homo-polymerization is imple...
A New Approach for the Kinetic Modelling of Non-Linear Free-Radical Polymerizations and its Applicat...
Irreversible non-linear copolymerizations with arbitrarily great numbers of monomers are described s...
A method to predict average molecular weights before and after gelation for general irreversible non...
Recent developments of a method based upon population balances of generating functions of polymer ch...
A recently developed general kinetic approach, based on population balances in terms of generating f...
The authors' previously developed method for the general kinetic analysis of nonlinear irreversible ...
Molecular Architecture of Non-Linear Polymers: Kinetic Modeling and Experimental Characterization of...
A method to predict the sequence length distribution (SLD) for homogeneous non-linear irreversible m...
By using results previously reported in the literature, the role and interactions of various termina...
A general kinetic approach allowing the prediction of the molecular architecture of non-linear polym...
New developments in the kinetic modelling of complex non-linear polymerizationsJNIC
An improved method of moments as a more reliable alternative for prediction of average molecular wei...
A kinetic gelation model that incorporates the kinetic of non-linear free radical copolymerization o...
Prediction of Average Radius of Gyration of Branched Polymers by a Kinetic ApproachFC
A kinetic gelation model that incorporates the kinetics of free radical homo-polymerization is imple...
A New Approach for the Kinetic Modelling of Non-Linear Free-Radical Polymerizations and its Applicat...
Irreversible non-linear copolymerizations with arbitrarily great numbers of monomers are described s...
A method to predict average molecular weights before and after gelation for general irreversible non...
Recent developments of a method based upon population balances of generating functions of polymer ch...
A recently developed general kinetic approach, based on population balances in terms of generating f...
The authors' previously developed method for the general kinetic analysis of nonlinear irreversible ...
Molecular Architecture of Non-Linear Polymers: Kinetic Modeling and Experimental Characterization of...
A method to predict the sequence length distribution (SLD) for homogeneous non-linear irreversible m...
By using results previously reported in the literature, the role and interactions of various termina...
A general kinetic approach allowing the prediction of the molecular architecture of non-linear polym...
New developments in the kinetic modelling of complex non-linear polymerizationsJNIC
An improved method of moments as a more reliable alternative for prediction of average molecular wei...
A kinetic gelation model that incorporates the kinetic of non-linear free radical copolymerization o...
Prediction of Average Radius of Gyration of Branched Polymers by a Kinetic ApproachFC
A kinetic gelation model that incorporates the kinetics of free radical homo-polymerization is imple...
A New Approach for the Kinetic Modelling of Non-Linear Free-Radical Polymerizations and its Applicat...