Publication detail
Cold Sprayed Tungsten Armor for Tokamak First Wall
ČÍŽEK, J. VILÉMOVÁ, M. LUKÁČ, F. KOLLER, M. KONDAS, J. SINGH, R.
English title
Cold Sprayed Tungsten Armor for Tokamak First Wall
Type
journal article in Web of Science
Language
en
Original abstract
Harnessing nuclear fusion is a challenging task, in particular because of the demands put on the used materials. In tokamaks, future energy sources, the inner-most chambers are to be coated with dense coatings of W, or W-Cr-based alloys. So far, the attempts for such coatings formation by other methods failed due to oxidation, high porosity, insufficient adhesion, high specific surface, or even insufficient thickness below 10 mu m. Cold spraying seems a promising technology for the task. In our study, we demonstrate the first successful fabrication of thick pure W coatings. W-Cr and W-Cr-Ti coatings were further prepared without oxidation of the metals. All coatings exhibited high hardness levels, good interface quality with three tested substrates and, importantly, a promising potential for formation of stable Cr2WOx phases.
English abstract
Harnessing nuclear fusion is a challenging task, in particular because of the demands put on the used materials. In tokamaks, future energy sources, the inner-most chambers are to be coated with dense coatings of W, or W-Cr-based alloys. So far, the attempts for such coatings formation by other methods failed due to oxidation, high porosity, insufficient adhesion, high specific surface, or even insufficient thickness below 10 mu m. Cold spraying seems a promising technology for the task. In our study, we demonstrate the first successful fabrication of thick pure W coatings. W-Cr and W-Cr-Ti coatings were further prepared without oxidation of the metals. All coatings exhibited high hardness levels, good interface quality with three tested substrates and, importantly, a promising potential for formation of stable Cr2WOx phases.
Keywords in English
cold gas kinetic spray; W-Cr; W alloys; oxidation shield; nuclear fusion; thick coatings; self-passivation; PFC; plasma facing components
Released
07.12.2019
Publisher
MDPI
Location
BASEL
ISSN
2079-6412
Volume
9
Number
12
Pages from–to
1–15
Pages count
15
BIBTEX
@article{BUT163555,
author="Jan {Čížek} and Monika {Vilémová} and František {Lukáč} and Martin {Koller} and Jan {Kondas} and Reeti {Singh},
title="Cold Sprayed Tungsten Armor for Tokamak First Wall",
year="2019",
volume="9",
number="12",
month="December",
pages="1--15",
publisher="MDPI",
address="BASEL",
issn="2079-6412"
}