CASTA DIVA<sup>®</sup>: Experiments and Modeling of Oxide-Induced Deformation in Nuclear Components

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ISSN: 1546-962X
Page Count: 19

CASTA DIVA^®: Experiments and Modeling of Oxide-Induced Deformation in Nuclear Components
Barberis, P.
AREVA, CEZUS Research Centre,

Rebeyrolle, V.
AREVA NP,

Vermoyal, J. J.

Chabretou, V.

Vassault, J. P.

Abstract

In-pile deformation of nuclear structural components remains a major preoccupation for fuel vendors and utilities, especially when introducing new alloys or extending burn-ups. The usual invoked causes of such deformations are free growth, hydriding (hydrides induce a volume expansion which translates into deformation), irradiation creep if the component is subjected to external loads (e.g., axial load for the fuel assembly), and flux gradients (for fuel channel bow). In this paper we show through out-of-pile experiments (autoclave corrosion and low temperature air oxidation) and in-pile data analysis that the oxide layer significantly contributes to the deformation. A model (CASTA DIVA^®) taking into account all the above mentioned phenomena has been derived and correctly predicts the deformation behavior, the stresses in the oxide layer, as well as the external cracking of the oxide. The relative impacts of hydriding and stresses in the metal are computed. A comparison between Zircaloy-4 and M5^® is made, showing the better behavior of M5.

Keywords:

Paper ID: JAI101124
DOI: 10.1520/JAI101124
ASTM International is a member of CrossRef.

Author Title CASTA DIVA^®: Experiments and Modeling of Oxide-Induced Deformation in Nuclear Components Symposium 15th International Symposium on Zirconium in the Nuclear Industry, 2007-06-28 Committee B10

		Home Journals STPs Manuals Topics Subscriptions/Pricing Digital Library / Journals / Journal of ASTM International (JAI) / Citation Page Volume 5, Issue 5 (May 2008) Click here to download this paper now for $25 PDF (560K) View License Agreement ISSN: 1546-962X Page Count: 19 CASTA DIVA^®: Experiments and Modeling of Oxide-Induced Deformation in Nuclear Components Barberis, P. AREVA, CEZUS Research Centre, Rebeyrolle, V. AREVA NP, Vermoyal, J. J. Chabretou, V. Vassault, J. P. Abstract In-pile deformation of nuclear structural components remains a major preoccupation for fuel vendors and utilities, especially when introducing new alloys or extending burn-ups. The usual invoked causes of such deformations are free growth, hydriding (hydrides induce a volume expansion which translates into deformation), irradiation creep if the component is subjected to external loads (e.g., axial load for the fuel assembly), and flux gradients (for fuel channel bow). In this paper we show through out-of-pile experiments (autoclave corrosion and low temperature air oxidation) and in-pile data analysis that the oxide layer significantly contributes to the deformation. A model (CASTA DIVA^®) taking into account all the above mentioned phenomena has been derived and correctly predicts the deformation behavior, the stresses in the oxide layer, as well as the external cracking of the oxide. The relative impacts of hydriding and stresses in the metal are computed. A comparison between Zircaloy-4 and M5^® is made, showing the better behavior of M5. Keywords: Paper ID: JAI101124 DOI: 10.1520/JAI101124 ASTM International is a member of CrossRef. Author Title CASTA DIVA^®: Experiments and Modeling of Oxide-Induced Deformation in Nuclear Components Symposium 15th International Symposium on Zirconium in the Nuclear Industry, 2007-06-28 Committee B10