Light Alloys
- Fakult?t
Ingenieurwissenschaften und Informatik
- Version
Version 6.0 vom 15.06.2022
- Modulkennung
11M0570
- Modulname (englisch)
Light Alloys
- Studieng?nge mit diesem Modul
Angewandte Werkstoffwissenschaften (M.Sc.)
- Niveaustufe
3
- Kurzbeschreibung
Subject of the course "light alloys" are the metallurgical aspects of light-weight design. Due to a shortage in energy resources there is an increasing demand of light-weight materials solutions not only in aerospace but also in automotive industries. The lecture covers the classical light metals aluminium, titanium and magnesium and their alloys as well as light-weight concepts by using steel products. By means of examples from industrial practice it is shown how the application of casting and forging techniques, heat treatment, coating and joining technologies allows to tailor the materials in such a way that they fulfil the technical, economical and ecological requirements of future products.
- Lehrinhalte
- Lecture: ? Light-weight design strategies: (i) application of low-density materials, (ii) topology optimisation, (iii) functionality, (iv) composites / driving forces aerospace and automotive research, criteria of a systematic materials selection process? Overview about light-weight materials: polymers, metals, composites? Recapitulation of metallurgical basics: phase diagrams, damage mechanisms, strengthening mechanisms, etc. ? Casting and metal forming technologies, properties, heat treatment, joining techniques, materials selection using the following light materials choice:
- aluminium alloys (including metal foams)
- titanium alloys (including intermetallic TiAl)
- magnesium alloys? New materials development, future of light alloys
Laboratory Exercises: Metallographic analysis of a typical light-weight product from daily life, chosen and provided by the students themselves or cast (aluminum) using the laboratory induction cating facility – presentation in English language.
- Lernergebnisse / Kompetenzziele
Wissensverbreiterung
The students know about the general strategies of light weight design using CFRP metals and alloys. They know about economic and technical advantages and disadvantages by using the various groups of materials.
Wissensvertiefung
With a focus on the three classical light alloys, based on aluminum, titanium and magnesium, the students get a deeper understanding of the metal casting, forming and strengthening technologies. They have a broad knowledge about the variety of possible alloy compositions and the beneficial (and potentially detrimental) effects of the alloying elements.
K?nnen - instrumentale Kompetenz
By experimental laboratory work in small teams the students are enabled to apply respective methods of metallographic analysis and mechanical testing to characterize selected light weight components and small aluminum cylinders that were produced by means different casting conditions using the induction casting facility at the University of Appl. Sc. Osnabrück.
K?nnen - kommunikative Kompetenz
The students are able to work experimentally and to communicate in small teams. Furthermore, they are able to present the results in the context of the knowledge they gained from the lecture and additional literature.
K?nnen - systemische Kompetenz
The students should be able to develop a light-weight concept for any given technical application taking the resp. loading conditions, economical, and environmental constraints into account. Furthermore, they should know how to choose the most suitable processing route with respect to casting, forming, heat treatment, joining, coating and testing.
- Lehr-/Lernmethoden
lecture / laboratory exercises
- Empfohlene Vorkenntnisse
Introduction in Materials Science and Engineering, Mechanics – Elastostatics, Mechanics of Materials (Werkstoffmechanik, Festigkeitslehre, Metallkunde (aus einem ingenieurwiss. Bachelorstudiengang))
- Modulpromotor
Mola, Javad
- Lehrende
Mola, Javad
- Leistungspunkte
5
- Lehr-/Lernkonzept
Workload Dozentengebunden Std. Workload Lehrtyp 30 lecture 10 laboratory exercises Workload Dozentenungebunden Std. Workload Lehrtyp 20 laboratory exercises 58 preparation/wrap-up phase 30 exam preparation phase 2 written exam (K2)
- Literatur
- Polmear, Ian: Light Alloys, Butterworth Elsevier, Amsterdam 2006
- Schumann, H.; Oettel, H.: Metallografie, Wiley VCH Weinheim 2005
- Ashby, M.: Materials Selection in Engineering Design, Elsevier, Oxford 2005
- Ostermann, F.: Anwendungstechnik Aluminium, 3. Auflage, Springer-Vieweg, Berlin Heidelberg 2014
- Prüfungsleistung
Klausur 2-stündig
- Bemerkung zur Prüfungsform
--
- Prüfungsanforderungen
knowledge about the principles of light weight design, Al, Ti, Mg and their alloys: systematic materials and heat treatment selection and , knowledge of casting, rolling, forging, extrusion and joing methods being suitable for light alloys.Deutsch: Kenntnisse der Grundzüge des Leichtbaus, Al, Ti, Mg und ihre Legierungen: systematische Werkstoffauswahl und Ermittlung geeigneter W?rmebehandlungsmethoden, Wahl der Legierungszusammensetzung und der W?rmebehandlungsverfahren, Kenntnisse der Fertigungsmethoden: Gie?en, Schieden, Walzen, Strangpressen und der Fügetechniken, die für Leichtbauwerkstoffe von Bedeutung sind
- Dauer
1 Semester
- Angebotsfrequenz
Nur Wintersemester
- Lehrsprache
Englisch