The effect of phase transformation in the plastic zone on the hydrogen-assisted fatigue crack growth of 301 stainless steel

Chen T. C.; Chen S. T.; Kai W.; Tsay L. W.

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The effect of phase transformation in the plastic zone on the hydrogen-assisted fatigue crack growth of 301 stainless steel

机译：塑性区相变对301不锈钢氢辅助疲劳裂纹扩展的影响

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The effects of rolling and stress ratio (R) on the fatigue crack growth rates (FCGRs) of AISI 301 stainless steel (SS) in gaseous hydrogen were investigated. Accelerated fatigue crack growth occurred for the solution-annealed (SA) and cold rolled (CR) specimens tested in gaseous hydrogen, and especially for the CR specimen at high R. Moreover, a sufficiently high Delta K and/or Kmax were required to activate hydrogen-assisted fatigue crack growth of the 301 SS. Fatigue crack growth within a narrow alpha' martensite layer was responsible for the rapid FCGRs of the specimens in hydrogen. The plastic zone size, identified by hardness distributions, was much larger than the region that underwent phase transformation. (C) 2015 Elsevier Inc. All rights reserved.

机译：研究了轧制和应力比（R）对AISI 301不锈钢（SS）在氢气中的疲劳裂纹扩展速率（FCGRs）的影响。在气态氢中测试的固溶退火（SA）和冷轧（CR）试样，特别是高R下的CR试样，出现了加速的疲劳裂纹扩展。此外，需要足够高的Delta K和/或Kmax来激活301 SS的氢辅助疲劳裂纹扩展。狭窄的α'马氏体层内的疲劳裂纹扩展是导致样品在氢气中快速FCGR的原因。通过硬度分布确定的塑性区大小比经历相变的区域大得多。（C）2015 Elsevier Inc.保留所有权利。

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《Materials Characterization》 |2016年第null期|共8页
作者
Chen T. C.; Chen S. T.; Kai W.; Tsay L. W.;
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正文语种 eng
中图分类工程材料学;
关键词
Stainless steel; Fatigue crack growth rate; Hydrogen embrittlement; Martensite;

机译：不锈钢;疲劳裂纹扩展率;氢脆;马氏体;

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1. The effect of phase transformation in the plastic zone on the hydrogen-assisted fatigue crack growth of 301 stainless steel [J] . Chen T. C., Chen S. T., Kai W., Materials Characterization . 2016,第Null期

机译：塑性区相变对301不锈钢氢辅助疲劳裂纹扩展的影响
2. Interaction of plastic zone, pores, and stress ratio with fatigue crack growth of sintered stainless steel [J] . N. Noraphaiphipaksa, T. Putta, A. Manonukul International Journal of Fracture . 2012,第1期

机译：烧结不锈钢塑性区，孔隙和应力比与疲劳裂纹扩展的相互作用
3. Interaction of plastic zone, pores, and stress ratio with fatigue crack growth of sintered stainless steel [J] . N. Noraphaiphipaksa, T. Putta, A. Manonukul, International Journal of Fracture . 2012,第1期

机译：塑性区，孔隙和应力比与烧结不锈钢疲劳裂纹扩展的相互作用
4. Fatigue Crack Growth Rate and Fracture Resistance of Heat Affected Zone of Type 316L Stainless Steel with Narrow Gap Welds [C] . Ho-Jung Lee, Minu Kim, Changheui Jang, PVP2011;ASME Pressure Vessels and Piping conference . 2012

机译：窄间隙焊缝316L不锈钢热影响区的疲劳裂纹扩展速率和抗断裂性能
5. THE EFFECT OF PHASE TRANSFORMATION ON THE FATIGUE CRACK GROWTH RATE OF AUSTENITIC STAINLESS STEELS TESTED IN ARGON AND HYDROGEN ATMOSPHERES. [D] . SCHUSTER, GARY BENJAMIN AUGUST. 1981

机译：相变对氩气和氢气氛中奥氏体不锈钢疲劳裂纹扩展速率的影响。
6. Hydrogen-Assisted Crack Growth in the Heat-Affected Zone of X80 Steels during in Situ Hydrogen Charging [O] . Jinglong Qu, Min Feng, Teng An, 2019

机译：X80钢原位加氢过程中热影响区氢助裂纹的扩展
7. In situ observation of strain and phase transformation in plastically deformed 301 austenitic stainless steel [O] . Simm, Thomas 2016

机译：塑性变形301奥氏体不锈钢的应变和相变的原位观察

The effect of phase transformation in the plastic zone on the hydrogen-assisted fatigue crack growth of 301 stainless steel

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