Step-growth polymerizing systems of type “A1+A2+A3” are considered. The monomers bear one (A1), two (A2), or three (A3) identical reactive sites. In the reactor vessel, at a given degree of conversion, a wide range of polymeric molecules has formed, differing in both molecular size and in branching structure, determined by the laws of probability. In a slice of the molecular size distribution, all polymeric molecules have the same size (i.e., are built up by the same number of monomeric units), but differ in number and position of branching points (A3's). A method is presented to calculate the path length distribution for each such slice. Here, path length is the number of chemical bonds in the path connecting two monomeric units in the mol...
The ultimate aim of polymerization reaction engineering is the production of polymers with tailor-ma...
Prediction of Average Radius of Gyration of Branched Polymers by a Kinetic ApproachFC
Recent developments of a method based upon population balances of generating functions of polymer ch...
Step-growth polymerizing systems of type “A1+A2+A3” are considered. The monomers bear one (A1), two ...
Step-growth polymerized systems of general type “AfiBgi” are considered. The monomers bear one or mo...
This study considers step-growth polymerizing systems of general type “AfiBgi” whereby one or more o...
This study considers step-growth polymerizing systems of general type “AfiBgi” whereby one or more o...
General step-growth polymerization systems of order 2 are considered, i.e. systems of type "AfiBgi"....
Step-growth polymerized systems of general type “AfiBgi” are considered. One or more of the monomer ...
A method to predict the sequence length distribution (SLD) for homogeneous non-linear irreversible m...
This paper describes a kinetic method to predict the z-average molecular mean square radius of gyrat...
In the search for innovative materials, the design of new polymers is of immense importance. Step-gr...
The ultimate aim of polymerization reaction engineering is the production of polymers with tailor-ma...
Prediction of Average Radius of Gyration of Branched Polymers by a Kinetic ApproachFC
Recent developments of a method based upon population balances of generating functions of polymer ch...
Step-growth polymerizing systems of type “A1+A2+A3” are considered. The monomers bear one (A1), two ...
Step-growth polymerized systems of general type “AfiBgi” are considered. The monomers bear one or mo...
This study considers step-growth polymerizing systems of general type “AfiBgi” whereby one or more o...
This study considers step-growth polymerizing systems of general type “AfiBgi” whereby one or more o...
General step-growth polymerization systems of order 2 are considered, i.e. systems of type "AfiBgi"....
Step-growth polymerized systems of general type “AfiBgi” are considered. One or more of the monomer ...
A method to predict the sequence length distribution (SLD) for homogeneous non-linear irreversible m...
This paper describes a kinetic method to predict the z-average molecular mean square radius of gyrat...
In the search for innovative materials, the design of new polymers is of immense importance. Step-gr...
The ultimate aim of polymerization reaction engineering is the production of polymers with tailor-ma...
Prediction of Average Radius of Gyration of Branched Polymers by a Kinetic ApproachFC
Recent developments of a method based upon population balances of generating functions of polymer ch...