Theoretical investigation of crack formation in tungsten after heat loads

Theoretical investigation of crack formation in tungsten after heat loads

Transient events such as ELMs in large plasma devices lead to significant heat load on plasma-facing components (PFCs). ELMs cause mechanical damage of PFCs (e.g. cracks). The cracks appear due to stresses caused by thermal extension. Analytical calculations of the stresses are carried out for tungs...

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Veröffentlicht in:Journal of nuclear materials 2015-08, Vol.463, p.246-249
Hauptverfasser: Arakcheev, A.S., Huber, A., Wirtz, M., Sergienko, G., Steudel, I., Burdakov, A.V., Coenen, J.W., Kreter, A., Linke, J., Mertens, Ph, Shoshin, A.A., Unterberg, B., Vasilyev, A.A.
Format: Artikel
Sprache:eng
Schlagworte:
Elm
Fatigue cracks
Fracture mechanics
Mathematical analysis
Mathematical models
Nuclear engineering
Stresses
Tungsten
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Beschreibung
Zusammenfassung:Transient events such as ELMs in large plasma devices lead to significant heat load on plasma-facing components (PFCs). ELMs cause mechanical damage of PFCs (e.g. cracks). The cracks appear due to stresses caused by thermal extension. Analytical calculations of the stresses are carried out for tungsten. The model only takes into account the basic features of solid body mechanics without material modifications (e.g. fatigue or recrystallization). The numerical results of the model demonstrate good agreement with experimental data obtained at the JUDITH-1, PSI-2 and GOL-3 facilities.
ISSN:0022-3115
1873-4820
DOI:10.1016/j.jnucmat.2014.10.090