Influence of electrolytic hydrogenation on cyclic crack resistance of chromium-nickel steels

被引:0
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作者
V. I. Pokhmurs'kyi
L. M. Bilyi
机构
来源
Materials Science | 1999年 / 35卷
关键词
Fatigue; Fatigue Crack; Fatigue Fracture; Hydrogen Embrittlement; Crack Resistance;
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摘要
Within the framework of linear fracture mechanics, we estimate the resistance of chromium-nickel 06Kh17N13M3, 07Kh16N6, and 10Kh26N5M steels to hydrogen embrittlement after various thermal treatments. We established that electrolytic hydrogenation leads to a considerable increase in the growth rate of fatigue cracks in steels with maximum in a low-amplitude range (by approximately a factor of 5–25 as compared with tests in air). The optimal mode of thermal treatment of 10Kh26N5M steel corresponds to quenching at 1293 K and annealing at 623 K. This mode ensures high plastic characteristics and maximum resistance to fatigue fracture in air in the course of electrolytic saturation with hydrogen, and long-term holding in a chloride-containing environment. We recommend this steel for the manufacture of critical parts of oil separators of marine ships.
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页码:515 / 520
页数:5
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