Helium-Ion-Implantation in Tungsten: Progress towards a Coherent Understanding of the Damage Formed and its Effects on Properties

Author(s)

Hofmann, F.; Nguyen-Manh, D.; Mason, D.R.; Gilbert, M.R.; Dudarev, S.L.; Eliason, J.K.; Beck, C.E.; Liu, W.; Duncan, Ryan Andrew; Maznev, Alexei; Nelson, Keith Adam; ... Show more Show less

Abstract

Tungsten is a likely material for divertor armour in fusion reactors. We describe recent progress combining multi-technique experiments with atomistic modelling to understand how injected helium interacts with displacement damage and modifies the physical properties of tungsten. Using X-ray micro-diffraction and laser-induced transient grating measurements, we observe both a lattice swelling and modulus change after helium implantation. Surprisingly, a fraction of a percent lattice expansion is associated with an order of magnitude larger reduction in elastic modulus. These observations are interpreted using a combined elasticity and density functional theory model. We also measure a large reduction of thermal diffusivity due to helium implantation. This can be explained in terms of the underlying damage microstructure using a new atomistic kinetic theory model. Together our observations and calculations allow us to begin to form a joined-up picture of helium-implantation-induced damage in tungsten and its diverse effects on microstructure and physical properties. Keywords: tungsten; ion implantation; helium laue micro-diffraction; surface acoustic waves; thermal transport

Date issued

2017-06

URI

http://hdl.handle.net/1721.1/113411

Department

Massachusetts Institute of Technology. Department of Chemistry

Journal

Procedia IUTAM

Publisher

Elsevier

Citation

Hofmann, F. et al. “Helium-Ion-Implantation in Tungsten: Progress Towards a Coherent Understanding of the Damage Formed and Its Effects on Properties.” Procedia IUTAM 21 (June 2017): 78–85 © 2017 The Author(s)

Version: Final published version

ISSN

2210-9838