Transition of creep mechanism by solute hydrogen in Zircaloy-4

Transition of creep mechanism by solute hydrogen in Zircaloy-4

The effect of solute hydrogen up to 200ppm on the creep mechanism of Zircaloy-4 was discussed to ascertain the safety of nuclear power plants. Creep tests performed at 673K and revealed that the addition of solute hydrogen decreased the creep rate in intermediate stress regions. According to the fol...

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Veröffentlicht in:Materials science & engineering. A, Structural materials : properties, microstructure and processing Structural materials : properties, microstructure and processing, 2017-01, Vol.684, p.191-195
Hauptverfasser: Matsunaga, Tetsuya, Hongo, Hiromichi, Tabuchi, Masaaki, Satoh, Yuhki, Abe, Hiroaki
Format: Artikel
Sprache:eng
Schlagworte:
Creep
Creep rate
Creep tests
Cross slip
Dislocation network
Dislocations
Electric power plants
Electron microscopy
Hydrogen
Hydrogen storage
Nuclear electric power generation
Nuclear engineering
Nuclear power plants
Nuclear safety
Solute hydrogen
Straight dislocation
Transmission electron microscopy
Zircaloy-4
Zircaloys (trademark)
Zirconium alloys
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Zusammenfassung:The effect of solute hydrogen up to 200ppm on the creep mechanism of Zircaloy-4 was discussed to ascertain the safety of nuclear power plants. Creep tests performed at 673K and revealed that the addition of solute hydrogen decreased the creep rate in intermediate stress regions. According to the followed transmission electron microscopy, the phenomenon reflected the change of rate-controlling mechanisms without or with solute hydrogen: cross-slip in a non-hydrogenated sample with H=10ppm; solute-atmosphere dragging process in hydrogenated samples with H=100 and 200ppm. Because cross-slip works as the annihilation process for the glide dislocations in Zircaloy-4, it is considered that the suppression of cross-slip by solute hydrogen leads to a decrease in the creep rate.
ISSN:0921-5093
1873-4936
DOI:10.1016/j.msea.2016.12.057