| Course Contents |
| And mechanism of anionic polymerization: Introduction, monomers, initiators, and solvents, to start the reaction, growth reaction, organolithium polimerle?mesinde gyrus event, copolymerization reactions, organolithium dienes polymerizations. Implementation of the anionic polymerization of polymer synthesis: molecular masses and distributions, block copolymerization reactions, the synthesis of branched polymers, branched polymers in the form of the vaccine and comb copolymers, star-shaped branched polymers. The nature and mechanism of cationic polymerization: Cationic initiators, cationic polymerized mechanism, kinetics and reactivity, stereochemistry of cationic polymerization, cationic polymerized Isomerism. Ionomers: applications of ion-containing polymers, the overall classification, linear and branched samples of ionic polymers, Homopolymers viscoelastic properties of ionic polymers, inorganic, organic, non-ionic homopolymers, iyonla?abilen organic polymers, copolymers viscoelastic properties (kristallenemeyen copolymers with a high Tg, kauçukesasl? ionomers, copolymers kristallenebilen , polyelectrolyte complexes), depending on the configuration, the properties of polymers, polyelectrolytes in solution, rubber elasticity. |
| Weekly Course Content |
| Week |
Subject |
Learning Activities and Teaching Methods |
| 1 |
And mechanism of anionic polymerization, |
solution of the relevant question |
| 2 |
Start-up reaction, growth reaction, organolithium polymerization, |
solution of the relevant question |
| 3 |
Copolymerization reactions, |
solution of the relevant question |
| 4 |
Implementation of the anionic polymerization of polymer synthesis |
solution of the relevant question |
| 5 |
Block copolymerization reactions, the synthesis of branched polymers |
solution of the relevant question |
| 6 |
The nature and mechanism of cationic polymerization: |
solution of the relevant question |
| 7 |
Ionomers: applications of ion-containing polymers |
solution of the relevant question |
| 8 |
mid-term exam |
|
| 9 |
Homopolymers viscoelastic properties, inorganic ionic polymers, |
solution of the relevant question |
| 10 |
ionized organic polymers, |
solution of the relevant question |
| 11 |
viscoelastic properties of copolymers |
solution of the relevant question |
| 12 |
crystallize copolymers, polyelectrolyte complexes, |
solution of the relevant question |
| 13 |
Depending on the configuration properties of polymers, |
solution of the relevant question |
| 14 |
polyelectrolytes in solution, rubber elasticity. |
solution of the relevant question |
| 15 |
polyelectrolytes in solution, rubber elasticity. |
solution of the relevant question |
| 16 |
final exam |
|
| Recommend Course Book / Supplementary Book/Reading |
| 1 |
1. Mulder, M. “Basic Principles of Membrane Technology”, 1991, Netherlands. 2. Bungay, P.M.; Lonsdale, H.K.; Pinho, M.N. “Synthetic Membranes: Science, Engineering and Applications”, 1983, USA. |
| Required Course instruments and materials |
| projetion |
