Formation and properties of polymer networks

The formation processes of unfilled and filled interpenetrating polymer networks (IPNs) and some of their physico-mechanical properties have been investigated. The IPN formation kinetics and the constituent network curing rates determine the rate and degree of microphase separation. This in turn det

## Abstract The variation of the swelling and mechanical properties of crosslinked nonionic poly (__N__‐isopropylacrylamide) (NIPA) polymer gel immersed in tetradecyl dimethylaminoxide (C14DMAO) surfactant solutions at 0.1__M__ NaCl, synthesized at different crosslinker concentrations was investiga

The theory of dynamic systems was used for a simulation of the transition between branched and network macromolecular structures. The system of difference equations was proposed as a corresponding model. The dependence of the limit fraction of crosslinked units on the values of equation coefficients

## Abstract The random end linking of different amounts of trifunctional crosslinkers with 3 000 prepolymer linear chains, with length varying from 10 to 30 monomers, to form networks at different system number densities was dynamically simulated by the molecular dynamics method. Investigation of t

The topological approach to radiation crosslinking of polymers is based on research of the transition from one topological form of macromolecules to another form, especially from a branched to a network form. The different types of transition and different threshold doses are considered. On the basi