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Article Dans Une Revue Journal of Nuclear Materials Année : 2022

Hydrogen trapping by irradiation-induced defects in 316 Lstainless steel: A combined experimental and modeling study

Résumé

The irradiation-induced defects in stainless steel internal components of pressurized water reactors com- bined with hydrogen uptake during the oxidation process could be a key parameter in the mechanism for Irradiation-Assisted Stress Corrosion Cracking (IASCC). A heat-treated 316 L SS containing a low amount of defects was Fe 3 + ions-implanted; irradiation-induced defects types and depth distributions were charac- terized by Transmission electron microscopy (TEM). Deuterium was then inserted in the specimens either by cathodic charging or by sample exposure to deuterated primary water. Secondary Ions Mass Spectrom- etry –SIMS –permitted to access the deuterium distribution at the implanted stainless steel surface. A finite difference numerical solver accounting for hydrogen diffusion/trapping coupling was used to simu- late the hydrogen transport in the implanted material, taken into consideration the specific heterogeneous character of the irradiation-induced defects distribution in matter. Taking as input data the experimen- tal defects distribution associated with Frank loops or voids, the main trapping sites for hydrogen were assigned to voids, not Frank loops. Such numerical approach was able to deal accurately with the prob- lem of hydrogen transport in a heterogeneous material as well as to differentiate two potential trap sites contributions to the experimental deuterium distribution. In addition, according to results obtained after primary water exposure, trapping at voids was still effective at 320 °C, signature of a high binding energy of hydrogen in voids.

Dates et versions

hal-03980437 , version 1 (09-02-2023)

Identifiants

Citer

Anne-Cécile Bach, Frantz Martin, Cecilie Duhamel, Stéphane Perrin, François Jomard, et al.. Hydrogen trapping by irradiation-induced defects in 316 Lstainless steel: A combined experimental and modeling study. Journal of Nuclear Materials, 2022, 562, pp.153603. ⟨10.1016/j.jnucmat.2022.153603⟩. ⟨hal-03980437⟩
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