Multiple damage mechanisms facilitated by planar dislocation glide in a commercial-grade precipitation-strengthened Fe-Ni-Cr-based steel

Virendra Kumar Verma; Motomichi Koyama; Shigeru Hamada; Eiji Akiyama

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Multiple damage mechanisms facilitated by planar dislocation glide in a commercial-grade precipitation-strengthened Fe-Ni-Cr-based steel

机译：工业级沉淀强化Fe-Ni-Cr基钢中平面错位滑移促进的多种损伤机理

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The present study addresses the damage evolution mechanism in precipitation-strengthened Fe-Ni-Cr-based steel (SUH 660) at ambient temperature in air. Specifically, damage quantification and associated microstructure characterization were performed. The damage initiation sites were inclusion and grain boundaries impinging dislocation slip. The early stage of damage evolution was observed before necking of the specimen. Subsequent plastic straining caused damage growth along slip planes and coalescence of damage via localized shear in ligaments between damages, for which the behavior was associated with the planar character of the slip. The damage evolution behavior observed in the post-mortem specimen was consistent with fractographic characteristics.

机译：本研究解决了在环境温度下空气中沉淀强化的Fe-Ni-Cr基钢（SUH 660）的损伤演化机理。具体来说，进行损伤定量和相关的微观结构表征。破坏的起始点是夹杂物和晶界，影响位错滑移。观察到损伤发展的早期阶段，然后将其颈缩。随后的塑性应变导致沿滑移面的损伤增大，以及在损伤之间的韧带中通过局部剪切产生的损伤聚结，其行为与滑移的平面特征有关。验尸标本中观察到的损伤演化行为与分形特征一致。

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来源
《Materials Science and Engineering》 |2020年第24期|139250.1-139250.7|共7页
作者
Virendra Kumar Verma; Motomichi Koyama; Shigeru Hamada; Eiji Akiyama;
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作者单位

Institute for Materials Research Tohoku University Katahira 2-1-1 Aoba-ku Sendai Miyagi 980-8S77 Japan Department of Mechanical Engineering Kyushu University Motooka 744 Nishi-ku Fukuoka 819-0395 Japan;

Institute for Materials Research Tohoku University Katahira 2-1-1 Aoba-ku Sendai Miyagi 980-8S77 Japan;

Department of Mechanical Engineering Kyushu University Motooka 744 Nishi-ku Fukuoka 819-0395 Japan;

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原文格式 PDF
正文语种 eng
中图分类
关键词
Damage; Precipitation strengthening; Austenitic steel; Planar dislocation glide; Failure;

机译：损伤;加强降水;奥氏体钢;平面错位滑行;失败;

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1. Effects of hydrogen content that alters damage evolution mechanisms in SUH 660 precipitation-strengthened Fe-Cr-Ni steel [J] . Virendra Kumar Verma, Motomichi Koyama, Shigeru Hamada, Materials Science and Engineering . 2020,第Jul22期

机译：Suh 660沉淀加强Fe-Cr-Ni钢改变损伤损伤损伤机制的氢含量的影响
2. Non-planar dislocations: 3D models and thermally-activated glide processes [J] . A.H.W. Ngan Materials Science and Engineering. A, Structural Materials . 2005,第Jul期

机译：非平面错位：3D模型和热激活滑行过程
3. Shuffle and glide mechanisms of prismatic dislocations in a hexagonal C14-type Laves-phase intermetallic compound [J] . Yongchao Zhang, Wei Zhang, Beining Du, Physical review . 2020,第13期

机译：六边形C14型熔融相金属化合物中的棱镜脱位的洗牌机制和滑动机制
4. Glide Mechanisms of <001> Dislocations in NiAl [C] . D. Caillard Symposium on high-temperature ordered intermetallic alloys . 1999

机译：在nial中脱臼的滑动机制
5. Mechanisms of hardening in HCP structures through dislocation transmutation and accommodation effects by glide twinning: Application to magnesium. [D] . Oppedal, Andrew Lars. 2010

机译：通过位错trans变和滑行孪生产生的调节作用在HCP结构中硬化的机理：应用于镁。
6. Damage Mechanisms and Mechanical Properties of High-Strength Multiphase Steels [O] . Sebastian Heibel, Thomas Dettinger, Winfried Nester, 2018

机译：高强度多相钢的损伤机理与力学性能
7. Creep failure model of a 9Cr1Mo-NvV (P91) steel integrating multiple deformation and damage mechanisms [O] . Gaffard Vincent, Besson Jacques, Gourgues-Lorenzon Anne-Françoise 2004

机译：集成多种变形和损伤机制的9Cr1Mo-NvV（P91）钢的蠕变破坏模型

Multiple damage mechanisms facilitated by planar dislocation glide in a commercial-grade precipitation-strengthened Fe-Ni-Cr-based steel

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