Studying of in-vessel component materials under high power electron beam and steady-state plasma loads

Studying of in-vessel component materials under high power electron beam and steady-state plasma loads

Combined tests of tungsten mock-ups with thermocyclic test in the electron beam facility with the load up to 50 MW/m² and subsequent irradiation with steady-state plasma load up to 1 MW/m² in PLM device have been carried out to simulate a material degradation under loads expected in a fusion reactor...

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Veröffentlicht in:Fusion engineering and design 2021-06, Vol.167, p.112335, Article 112335
Hauptverfasser: Budaev, Viacheslav Petrovich, Fedorovich, Sergey, Dedov, Alexey, Martynenko, Yuri, Karpov, Alexey, Lukashevsky, Mikhail, Gubkin, Mikhail, Lubenchenko, Alexander, Komov, Alexander, Dragunov, Victor, Sliva, Andrey, Marchenkov, Artem, Zakharenkov, Alexander, Kavyrshin, Dmitry, Vasilyev, Grigory, Quang, V. Tran, Rogozin, Konstantin, Konkov, Alexey
Format: Artikel
Sprache:eng
Schlagworte:
e-beam test
Electron beams
Electrons
Fusion reactor
Load
Melting
Nuclear Science & Technology
Plasma irradiation
Plasma-facing materials
Science & Technology
Steady state
Technology
Tungsten
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Zusammenfassung:Combined tests of tungsten mock-ups with thermocyclic test in the electron beam facility with the load up to 50 MW/m² and subsequent irradiation with steady-state plasma load up to 1 MW/m² in PLM device have been carried out to simulate a material degradation under loads expected in a fusion reactor. Cracks of 1–5 microns and more have been formed on the surface of the tungsten during e-beam test. Melted layer observed in the area of e-beam hot spot load. Plasma load led to a formation of nanostructured layers on the surface.
ISSN:0920-3796
1873-7196
DOI:10.1016/j.fusengdes.2021.112335