info:eu-repo/semantics/article
Determination of very low concentrations of hydrogen in zirconium alloys by neutron imaging
Fecha
2018-05Registro en:
Buitrago Montañez, Nayibe Lucia; Santisteban, Javier Roberto; Tartaglione, Aureliano; Marín, J.; Barrow, L.; et al.; Determination of very low concentrations of hydrogen in zirconium alloys by neutron imaging; Elsevier Science; Journal of Nuclear Materials; 503; 5-2018; 98-109
0022-3115
CONICET Digital
CONICET
Autor
Buitrago Montañez, Nayibe Lucia
Santisteban, Javier Roberto
Tartaglione, Aureliano
Marín, J.
Barrow, L.
Daymond, M. R.
Schulz, M.
Grosse, M.
Tremsin, A.
Lehmann, E.
Kaestner, A.
Kelleher, J.
Kabra, S.
Resumen
Zr-based alloys are used in nuclear power plants because of a unique combination of very low neutron absorption and excellent mechanical properties and corrosion resistance at operating conditions. However, Hydrogen (H) or Deuterium ingress due to waterside corrosion during operation can embrittle these materials. In particular, Zr alloys are affected by Delayed Hydride Cracking (DHC), a stress-corrosion cracking mechanism operating at very low H content (∼100?300 wt ppm), which involves the diffusion of H to the crack tip. H content in Zr alloys is commonly determined by destructive techniques such as inert gas fusion and vacuum extraction. In this work, we have used neutron imaging to non-destructively quantify the spatial distribution of H in Zr alloys specimens with a resolution of ∼5 wt ppm, an accuracy of ∼10 wt ppm and a spatial resolution of ∼25 μm × 5 mm x 10 mm. Non-destructive experiments performed on a comprehensive set of calibrated specimens of Zircaloy-2 and Zr2.5%Nb at four neutron facilities worldwide show the typical precision and repeatability of the technique. We have observed that the microstructure of the alloy plays an important role on the homogeneity of H across a specimen. We propose several strategies for performing H determinations without calibrated specimens, with the most precise results for neutrons having wavelengths longer than 5.7 Å.