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Fusion Science and Technology Volume 60, 2011 - Issue 1: Proceedings of the Nineteenth Topical Meeting On The Technology Of Fusion Energy (TOFE) (Part 1)
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Divertor & High Heat Flux Components

W-Based Alloys for Advanced Divertor Designs: Options and Environmental Impact of State-of-the-Art Alloys

L. El-GuebalyUniversity of Wisconsin, 1500 Engineering Dr., Madison, WI 53706, USA
,
R. KurtzPacific Northwest National Laboratory, 622 Horn Rapids Rd., Richland, WA, 99352 USA
,
M. RiethKarlsruhe Institute of Technology, IMF I, P.O. Box 3640, 76021 Karlsruhe, Germany
,
H. KurishitaIMR, Tohoku University, Oarai, Ibaraki, 311-1313, Japan
,
A. RobinsonUniversity of Wisconsin, 1500 Engineering Dr., Madison, WI 53706, USA
& ARIES Team
Pages 185-189 | Published online: 07 Apr 2017
 
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Abstract

The development of radiation-resistant materials to sustain the harsh fusion environment represents a challenging task for divertor designers. In recent years, advanced physics simulations of the power leaving the plasma with radiation and charged particles indicate much higher heat fluxes to the divertor than previous estimates. In response, experts in EU, Japan, and US developed several W alloys for advanced He-cooled divertors that can handle heat fluxes in excess of 10 MW/m2. This paper briefly discusses the ongoing effort to develop W alloys suitable for fusion applications, the challenging phenomena impacting the behavior of W under a fusion environment, and the environmental impact of the most promising, state-of-the-art alloys: W-La2O3 and W-1.1TiC.

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