论文信息 - Embrittlement of zircaloy-4 due to oxidation in environment of stagnant steam.

Embrittlement of zircaloy-4 due to oxidation in environment of stagnant steam.

With a view to examining the embrittlement behavior of Zircaloy due to inner surface oxidation occurring in an LWR loss-of-coolant accident, ring-like Zircaloy-4 cladding specimens were heated at the isothermal oxidation temperature ranging 890~1,194°C in an environment of stagnant steam, which simulated the atmospheric condition inside the ruptured cladding. The embrittlement of the specimen due to oxidation in an environment of stagnant steam is influenced primarily by the amount of hydrogen absorbed by the Zircaloy-4. Ring compression tests conducted at 100°C on oxidized ring-like cladding specimen showed that Zircaloy containing more than about 500wt.ppm of hydrogen had become brittle. The results of the present experiment support the idea supposed in the previous paper that the hydrogen absorption on the inner surface of the ruptured cladding, causing severe embrittlement, is strongly related with the atmospheric condition inside the ruptured cladding.

[1] A. Sawatzky. The diffusion and solubility of hydrogen in the alpha phase of zircaloy-2 , 1960 .

[2] Y. Mishima,et al. A resistometric study of the solution and precipitation of hydrides in unalloyed zirconium , 1968 .

[3] G. D. Fearnehough,et al. The effect of hydrogen and strain rate on the ``ductile-brittle'' behaviour of zircaloy , 1967 .

[4] Satoru Kawasaki,et al. Zircaloy-Clad Fuel Rod Burst Behavior under Simulated Loss-of-Coolant Condition in Pressurized Water Reactors , 1978 .

[5] M. Someno. SOLUBILITY AND DIFFUSION OF HYDROGEN IN ZIRCONIUM , 1960 .

[6] S. Kawasaki,et al. Oxidation of Zircaloy-4 under High Temperature Steam Atmosphere and Its Effect on Ductility of Cladding , 1978 .

[7] Satoru Kawasaki,et al. Zircaloy-4 Cladding Embrittlement due to Inner Surface Oxidation under Simulated Loss-of-Coolant Condition , 1981 .