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THE INFLUENCE OF HIGH INTERNAL HYDROGEN CONTENT ON THE EVOLVED MICROSTRUCTURE DURING FATIGUE-CRACK GROWTH IN 316L STAINLESS STEEL

机译：高内氢含量对316L不锈钢疲劳裂纹增长过程中进化微观结构的影响

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The link between the microstructural states following uniaxial fatigue loading in the absence (4 mass ppm of hydrogen) and presence of hydrogen (104 mass ppm of hydrogen) has been made using type 316L austenitic stainless steel. The fracture surface morphology was first examined using scanning electron microscopy and then samples were extracted using focused-ion beam machining from regions containing striations. Microstructures were assessed using conventional diffraction contrast and zone-axis scanning transmission electron imaging conditions. The high internal hydrogen content led to a 22.3% reduction in fatigue life. Later stages of crack growth show hydrogen affecting the depth and degree of refinement near the fracture surface, measured by the degree of curvature of a twin variant. Findings are discussed in terms of the effect of hydrogen on the collective behavior of dislocations, deformation twinning, and mode of fracture.

机译：使用型316L奥氏体不锈钢制造了在不存在（4质量ppm）和氢气的存在下的单轴疲劳负载和氢气的存在（104质量ppm）之后的微观结构状态。首先使用扫描电子显微镜检查裂缝表面形态，然后使用从含有晶体的区域加工的聚焦离子束加工提取样品。使用常规衍射对比度和区域轴扫描透射电子成像条件评估微观结构。高内氢含量导致疲劳寿命减少22.3％。裂纹生长的后期阶段显示氢气影响断裂表面附近的细化程度，通过双变体的曲率程度测量。在氢气对位错，变形孪晶和裂缝模式的集体行为的影响方面讨论了结果。

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《International Hydrogen Conference》|2017年|660p|共7页
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K. NYGREN; P. SOFRONIS; A. NAGAO; I. M. ROBERTSON;
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3. Comparative study on the fatigue crack growth behavior of 316L and 316LN stainless steels: effect of microstructure of cyclic plastic strain zone at crack tip [J] . Maeng WY., Kim MH. Journal of Nuclear Materials: Materials Aspects of Fission and Fusion . 2000,第1期

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4. THE INFLUENCE OF HIGH INTERNAL HYDROGEN CONTENT ON THE EVOLVED MICROSTRUCTURE DURING FATIGUE-CRACK GROWTH IN 316L STAINLESS STEEL [C] . K. NYGREN, P. SOFRONIS, A. NAGAO, International Hydrogen Conference . 2017

机译：高内氢含量对316L不锈钢疲劳裂纹增长过程中进化微观结构的影响
5. The Influence of Hydrogen on the Evolving Microstructure During Fatigue Crack Growth in Metastable and Stable Austenitic Stainless Steels [D] . Nygren, Kelly Elizabeth. 2016

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机译：mo含量对作为聚合物交换膜燃料电池双极板的316L不锈钢电弧离子镀Ti-mo-N薄膜微观结构和耐蚀性的影响

THE INFLUENCE OF HIGH INTERNAL HYDROGEN CONTENT ON THE EVOLVED MICROSTRUCTURE DURING FATIGUE-CRACK GROWTH IN 316L STAINLESS STEEL

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