Numerical simulation of displacement instabilities of surface grooves on an alumina forming alloy during thermal cycling oxidation

Numerical simulation of displacement instabilities of surface grooves on an alumina forming alloy during thermal cycling oxidation

Displacement instability of the thermally grown oxide (TGO) is a fundamental source of failure in thermal barrier systems. In this work, a finite element analysis has been performed to analyze the displacement instability occurring at a heat resistant metal with superficial TGO subjected to thermal...

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Veröffentlicht in:Journal of mechanical science and technology 2009, 23(8), , pp.2308-2319
Hauptverfasser: Ding, Jun, Li, Feng-Xun, Kang, Ki-Ju
Format: Artikel
Sprache:eng
Schlagworte:
Control
Displacement
Dynamical Systems
Engineering
Exact sciences and technology
Failure
Finite element analysis
Finite element method
Fracture mechanics (crack, fatigue, damage...)
Fundamental areas of phenomenology (including applications)
Industrial and Production Engineering
Instability
Mathematical analysis
Mechanical Engineering
Physics
Simulation
Solid mechanics
Stability
Structural and continuum mechanics
Studies
Thermal cycling
Vibration
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Zusammenfassung:Displacement instability of the thermally grown oxide (TGO) is a fundamental source of failure in thermal barrier systems. In this work, a finite element analysis has been performed to analyze the displacement instability occurring at a heat resistant metal with superficial TGO subjected to thermal cycling. Lateral and in-plane growth of the TGO which happens during high temperature is simulated by means of material property change from the substrate metal to the TGO. Most of the material properties including the TGO growth are based on the results experimentally obtained in-house. Results of the finite element analyses agree well with the experimental observation, which proves the accuracy and validity of this simulation. The technique will be useful for future work on more complicated phenomena such as deformation under thermo-mechanical cycling.
ISSN:1738-494X
1976-3824
DOI:10.1007/s12206-009-0430-4