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| Detailinformationen |
| Quellcurriculum |
Masterstudium Polymer Engineering and Science 2025W |
| Lernergebnisse |
Kompetenzen |
| (*)Students are able to differentiate between structural and functional polymeric materials and to describe the main structural features, properties and applications of functional polymeric materials allowing for transport, storage or transformation of energy.
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| Fertigkeiten |
Kenntnisse |
| (*)to analyse and compare scientific and market literature dealing with functional polymeric materials (k4)
to assess the scientific quality of up to 10 papers dealing with a pre-defined topic (k5)
to present, discuss and defend the results of the literature survey and to deduce main conclusions for further research and development (k6)
to compile the main findings and to write an extended abstract considering parallel-structure principles (k6)
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(*)The covered topics include:
- Definition of functional polymeric materials
- Electrical behavior of polymeric materials (e.g., dielectric, ferroelectric and conductive materials)
- Optical behavior (incl. basic optical properties, transparent insulation materials, polymeric materials for liquid crystal displays and thermotropic materials)
- Thermal behavior (thermal expansion, conductivity and heat capacity and ) of polymeric materials (incl. foams),
- Barrier properties of polymeric materials (incl. polymeric membranes)
- Specific processing methods for functional polymeric materials (e.g., wet-chemical and vapor deposition methods)
In the seminar case studies to specific topics are performed by the students incl. a literature search, an oral presentation and a discussion.
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| Beurteilungskriterien |
(*)oral examination
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| Lehrmethoden |
(*)on-site and/or hybrid classes
demonstrators and visual examples
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| Abhaltungssprache |
Englisch |
| Literatur |
(*)Richardson, T.H. (2000). Functional Organic and Polymeric Materials, Wiley
Chilton, J.A. und Goosey, M.T. (1995). Special Polymers for Electronics and Optoelectronics, Chapman & Hall
Meeten, G.H. (1986). Optical Properties of Polymers, Elsevier
Ku, C.C., Liepins, R. (1987). Electrical Properties of Polymers, Elsevier.
Gray, F.M. (1991). Solid Polymer Electrolytes, VCH.
Baker, R.W. (2012). Membrane Technology and Applications, Wiley. IPMT Anderson, T.L. (2005). Fracture Mechanics – Fundamentals and Applications, Taylor & Francis.
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| Lehrinhalte wechselnd? |
Nein |
| Sonstige Informationen |
(*)The main focus of this lecture and seminar is on functional polymeric materials, their structure/property-correlations and specific applications of such materials.
Course 479POMTPM4V12 VL : Polymeric Materials 4: Functional Polymeric Materials and 479POMTPM4S12 form an integral didactic unit. The learning outcomes described are achieved through the interaction of the two courses.
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| Äquivalenzen |
(*)in collaboration with 479POMTPM4V12 [bzw. 480ADPTPM4V11]: VL Polymeric Materials 4: Functional Polymeric Materials (1,5 ECTS)
equivalent to
480ADPTFPMV10: VL Functional Polymeric Materials (1 ECTS) & 480ADPTFPMS10: SE Functional Polymeric Materials (1,5 ECTS)
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