Behavoiur of Light metal alloys, cast iron, heat resistant steels,
nickel alloys and thermal barrier coatings for high temperature regimes;
microstructure mechanisms under high temperature loading conditions,
estimation of specific values for component design; life time prediction
of components under high temperature loading conditions
After following this lecture the student will be able to:
Literature
[list]
[*]Meetham, G. W., M.H. Van de Voorde: Materials for High Temperature Engineering Applications, Springer-Verlag Berlin Heidelberg, 2000, ISBN 978-3-642-63109-2
[*]Berger, C., A. Scholz, F. Müller, M. Schwienheer: Creep fatigue behaviour and crack growth of steels, In: Abe, F., Kern, T. U., Viswanathan R. (Eds): Creep-resistant steels (2008, First Ed.), Chambridge, Woodhead Publishing Limited, ISBN 978-1-84265-129-2, pp. 446/471
[/list]
Prerequisites for participation
basic knowlwedge from lectures of material technologies and material science.
Expected number of participants
40
Online-Offer
moodle
After following this lecture the student will be able to:
- specify the classes of high temperature materials, know the range of application, and describe the limits of application,
- analyse and describe the properties of the microstructure of high temperature materials as well as the mechanisms of diffusion based deformation and damage properties,
- distinguish the influence of material and production parameters on the long term behavior under high temperature loading conditions,
- describe the determination of specific values for design parameters of high temperature components. Develop of life time relevant operation limits on the basis of material behavior and loading analysis,
- evaluate the suitability of high temperature materials and joints on the bases of the analysis of the loading conditions and derive requirements of material properties and allowable loading conditions.
Literature
[list]
[*]Meetham, G. W., M.H. Van de Voorde: Materials for High Temperature Engineering Applications, Springer-Verlag Berlin Heidelberg, 2000, ISBN 978-3-642-63109-2
[*]Berger, C., A. Scholz, F. Müller, M. Schwienheer: Creep fatigue behaviour and crack growth of steels, In: Abe, F., Kern, T. U., Viswanathan R. (Eds): Creep-resistant steels (2008, First Ed.), Chambridge, Woodhead Publishing Limited, ISBN 978-1-84265-129-2, pp. 446/471
[/list]
Prerequisites for participation
basic knowlwedge from lectures of material technologies and material science.
Expected number of participants
40
Online-Offer
moodle
- Lehrende: Matthias Oechsner
Semester: WT 2019/20