Polymer Analytics and Testing
- Fakult?t
Ingenieurwissenschaften und Informatik
- Version
Version 16.0 vom 21.02.2023
- Modulkennung
11M1230
- Modulname (englisch)
Polymer Analytics and Testing
- Studieng?nge mit diesem Modul
Angewandte Werkstoffwissenschaften (M.Sc.)
- Niveaustufe
4
- Kurzbeschreibung
The aim of polymer analytics is to characterize polymers with respect to chemical composition, chemical structure and morphology. Polymer testing serves the purpose of determination of material properties in order to proper design of plastics and rubber parts as well as to predict the behaviour of the parts at conditions of application. The module provides knowledge to understand and to perform of advanced analytical test methods as well as advanced material testing.
- Lehrinhalte
- Advanced spectroscopic methods
1.1 Nuclear magnetic resonance spectroscopy
1.2 Mass spectrometry - Coupled methods in polymer analytics
2.1 Chromatography and mass spectrometry
2.2 Thermogravimetry and infra red spectroscopy - Theoretical describtion of mechanical behaviour of polymers
- Dynamic properties of polymers and corresponding testing methods
4.1 Determination of complex modulus and damping by hysteresis test methods
4.2 Fatigue behaviour
4.3 Time - Temperature - Superposition principle and master curves - Advanced stress relaxation test methods
- Determination of crosslink density and network structure
- Advanced spectroscopic methods
- Lernergebnisse / Kompetenzziele
Wissensverbreiterung
Students of the University of Applied Sciences Osnabrück who have successfully studied this module know about the most important methods in the field of polymer analytics and polymer testing.
Wissensvertiefung
Students of the University of Applied Sciences Osnabrück who have successfully studied this module have comprehensive and integrated knowledge regarding the possible applications of the methods for solving practical problems of polymer analysis and testing.
They also have detailed knowledge and understanding in the field of polymer analytics and polymer testing, which reflects the latest knowledge and research.
K?nnen - instrumentale Kompetenz
Students of the University of Applied Sciences Osnabrück who have successfully studied this module are able to evaluate and discuss experimental data and to present the results in written as well as oral form. For this they use various computer-assisted methods to collect, evaluate and document measured data. Furthermore, they can provide guidance on the development of software to improve its effectiveness.
K?nnen - kommunikative Kompetenz
Students of the University of Applied Sciences Osnabrück who have successfully studied this module have the ability to communicate with experienced colleagues and specialists at a professional level. They are also able to give formal presentations on specific topics in front of a specialist audience.
K?nnen - systemische Kompetenz
Students of the University of Applied Sciences Osnabrück who have successfully studied this module apply the methods of polymer analysis and testing for research and development projects.
- Lehr-/Lernmethoden
Vorlesung, Selbststudium, Laborpraktikum, eLearning, Gruppenarbeit, Pr?sentationen
- Empfohlene Vorkenntnisse
Erwartet werden gute Kenntnisse in Physik, Chemie und Werkstoffkunde. Es werden au?erdem Grundkenntnisse der Werkstoffprüfung erwartet.
- Modulpromotor
Susoff, Markus Lothar
- Lehrende
- Petersen, Svea
- Susoff, Markus Lothar
- Leistungspunkte
5
- Lehr-/Lernkonzept
Workload Dozentengebunden Std. Workload Lehrtyp 35 Vorlesungen 10 Labore Workload Dozentenungebunden Std. Workload Lehrtyp 45 Literaturstudium 25 Selbst?ndiges Arbeiten im Labor 15 Prüfungsvorbereitung 20 Kleingruppen
- Literatur
[1] Introduction to Physical Polymer Science, L.H. Sperling, 3. Auflage Wiley Interscience New York 2001 [2] DSC - Prüfung in der Anwendung, Achim Frick, Claudia Stern, Hanser - Verlag, 2006[3] Kunststoffprüfung, Wolfgang Grellmann, Sabine Seidler, Hanser - Verlag, 2005[4] Instrumentelle Analytik: Experimente ausgew?hlter Analyseverfahren, Sergio Petrozzi, Wiley-VCH Verlag, 2010[5] Ein- und zweidimensionale NMR-Spektroskopie: Eine Einführung, Horst Friebolin, Wiley-VCH Verlag, 2006[6] Polymer Physics, Ulf W. Gedde, Kluwer Academic Publishers, 2001[7] Deformation und Bruchverhalten von Kunststoffen, Wolfgang Grellmann, Sabine Seidler, Springer Verlag, 1998[8] Polymer Physics, Michael Rubinstein, Ralph H. Colby, Oxford University Press, 2007
- Prüfungsleistung
Experimentelle Arbeit und mündliche Prüfung
- Dauer
1 Semester
- Angebotsfrequenz
Nur Wintersemester
- Lehrsprache
Englisch