Literatura: |
1. Stevens M. P., Chemistry of Polymers, An Introduction, Oxford University Press, 1983
2. Nicholson J., The Chemistry of Polymers, RSC Publishing, 2006
3. Thomas. S., Kalarikkal N., Jaroszewski M., Jose J.P., Advanced Polymeric Materials From Macro- to Nano-Length Scales, Routledge, Taylor and Francis Group, 2015
4. Ravve A., Principles of Polymer Chemistry, Springer, 2000
5. Carraher Ch. E.Jr., Introduction to polymer chemistry, CRC Press, 1995
6. Allcock H.L., Introduction to Materials Chemistry, John Wiley and Sons Inc, 2009
7. Gersten J.I., Smith F.W., The Physics and Chemistry of Materials, John Wiley and Sons Inc, 2001
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Efekty uczenia się: |
On completion of the course, the student should be able to:
- describe the general structure of polymers
- explain the properties of polymers in solution and solid state
- identify and explain differences between addition and stepwise polymerisation
- account for reaction mechanisms during radical, ionic and condensation polymerisation
- give examples of industrial application of polymers
- identify natural polymers, give examples of such material
- give exmples of biodegradable polymers
- describe general information about ceramics, alloys, glass
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Zakres tematów: |
1. Radical polymerization in the solvent and bulky polymerization.
2. Radical polymerization in suspension and emulsion. Properties and application of poliolefines.
3. Polycondensation, polyaddition; resins, polyesters, polymaides.
4. Polyurethanes, natural polymers (e.g. cellulose, chitosane, nucleic acids, proteins).
5. Methods used for characterization of polymers – size exclusion chromatography (SEC), matrix assisted laser desorption ionization (MALDI), viscozimetry etc.
6. Biodegradable polymers, smart gels and other polymers with special properties.
7. Ceramics, alloys, glass.
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