The students should be able to discuss practical problems and solution approaches, resulting from the operation of components at higher temperatures.

MBLB-MATH - Mathematik und Mechanik1, MBLB-LBMAT1 - Leichtbau-
Materialien 1, MBLB-InS - Instationäre Systeme, MBLB-LBKON1 -
Leichtbau-Konstruktion, MBLB-LBKON2-Leichtbau-Konstruktion 2,
MBLB-LBMAT2 - Leichtbau-Materialien 2, MBLB-PHYSIM - Physik und
Simulation, MBLB-STRUCSEC - Struktursicherheit, MBLB-VBTECH -
Verbindungstechnik, MBLB-SIMDESG1 - Simulation und Design 1

The students should practice discuss problems and solutions, resulting from the operation of components at higher temperatures:
- High temperature resistance
- High temperature deformation
- Creep and creep rupture
- Cyclic strength and deformation at high temperatures
- High temperature corrosion
- High temperature alloys
- High temperature coatings
- Dimensioning of high-temperature components
- Measures to operationally stressed components
- Cooling concepts

Ralf Bürgel: Handbuch Hochtemperatur-Werkstofftechnik:
Grundlagen, Werkstoffbeanspruchungen, Hochtemperaturlegierungen
und -beschichtungen, Vieweg+Teubner
Journal of Construction Engineering and Management
Journal of Constructional Steel Research

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