Modeling the Interaction of Helium with Dislocations and Grain Boundaries in Alpha-Iron

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Volume 4, Issue 6 (June 2007)

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ISSN: 1546-962X
Published Online: 10 July 2007
Page Count: 7

Modeling the Interaction of Helium with Dislocations and Grain Boundaries in Alpha-Iron
Heinisch, H. L.
Pacific Northwest National Laboratory, WA

Gao, F.
Pacific Northwest National Laboratory, WA

Kurtz, R. J.
Pacific Northwest National Laboratory, WA

(Received 8 December 2006; accepted 7 May 2007)

Abstract

Helium is a ubiquitous impurity in nuclear materials that can have significant deleterious effects on mechanical properties, including deformation and fracture. To determine ways to mitigate the effects of helium it is necessary to understand the behavior of helium with respect to its interaction with various microstructural features. Toward that end, we have employed molecular statics, molecular dynamics, and the dimer method of potential surface mapping to study the fate of helium in the vicinity of dislocations and grain boundaries in alpha-iron. Even at very low temperatures interstitial helium atoms can migrate to dislocations and grain boundaries, where they are strongly bound. The binding energies of helium to these microstructural features relative to the perfect crystal and the migration energies of helium diffusing within them have a strong correlation to the excess atomic volume that exists in these extended defects. Helium atom migration energies within the dislocations and grain boundaries studied are in the range of 0.4–0.5 eV. Helium “kick out” mechanisms have been identified within dislocations and grain boundaries by which interstitial helium atoms replace an Fe lattice atom, creating a stable He-vacancy complex that may be a nucleation site for an He bubble.

Keywords:
iron, helium, molecular dynamics, dislocations, grain boundaries, computer simulation

Paper ID: JAI100946
DOI: 10.1520/JAI100946
ASTM International is a member of CrossRef.

Author Title Modeling the Interaction of Helium with Dislocations and Grain Boundaries in Alpha-Iron Symposium Effects of Radiation on Materials: 23rd Symposium, 2006-06-15 Committee E10

		Home Journals STPs Manuals Topics Subscriptions/Pricing Digital Library / Journals / Journal of ASTM International (JAI) / Citation Page Volume 4, Issue 6 (June 2007) Click here to download this paper now for $25 PDF (144K) View License Agreement ISSN: 1546-962X Published Online: 10 July 2007 Page Count: 7 Modeling the Interaction of Helium with Dislocations and Grain Boundaries in Alpha-Iron Heinisch, H. L. Pacific Northwest National Laboratory, WA Gao, F. Pacific Northwest National Laboratory, WA Kurtz, R. J. Pacific Northwest National Laboratory, WA (Received 8 December 2006; accepted 7 May 2007) Abstract Helium is a ubiquitous impurity in nuclear materials that can have significant deleterious effects on mechanical properties, including deformation and fracture. To determine ways to mitigate the effects of helium it is necessary to understand the behavior of helium with respect to its interaction with various microstructural features. Toward that end, we have employed molecular statics, molecular dynamics, and the dimer method of potential surface mapping to study the fate of helium in the vicinity of dislocations and grain boundaries in alpha-iron. Even at very low temperatures interstitial helium atoms can migrate to dislocations and grain boundaries, where they are strongly bound. The binding energies of helium to these microstructural features relative to the perfect crystal and the migration energies of helium diffusing within them have a strong correlation to the excess atomic volume that exists in these extended defects. Helium atom migration energies within the dislocations and grain boundaries studied are in the range of 0.4–0.5 eV. Helium “kick out” mechanisms have been identified within dislocations and grain boundaries by which interstitial helium atoms replace an Fe lattice atom, creating a stable He-vacancy complex that may be a nucleation site for an He bubble. Keywords: iron, helium, molecular dynamics, dislocations, grain boundaries, computer simulation Paper ID: JAI100946 DOI: 10.1520/JAI100946 ASTM International is a member of CrossRef. Author Title Modeling the Interaction of Helium with Dislocations and Grain Boundaries in Alpha-Iron Symposium Effects of Radiation on Materials: 23rd Symposium, 2006-06-15 Committee E10