Work Hardening and Dislocation Arrangement of fcc Single Crystals. I. Plastic Deformation and Slip Line Studies of Nickel Single Crystals

Mader Siegfried; Seeger Alfred; Leitz Christoph

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Work Hardening and Dislocation Arrangement of fcc Single Crystals. I. Plastic Deformation and Slip Line Studies of Nickel Single Crystals

机译：fcc单晶的工作硬化和位错排列。一，镍单晶的塑性变形和滑移线研究

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The work hardening of nickel single crystals and its temperature dependence are investigated. The results are discussed in terms of the long‐range stress theory of work hardening. From an analysis of the temperature dependence of the stress τIII at the onset of stage III, we deduce the stacking fault energy of nickel and the magnitude of the stress concentrations in the deformed crystals. Particular attention is given to the question: Which of the hardening parameters are structure sensitive and which are insensitive to the differences in the microstructure of the crystals? Simultaneous determinations of the length and height of individual slip lines are carried out. They check with the information on the stress concentrations and agree well with the predictions of the work‐hardening theory.

机译：研究了镍单晶的加工硬化及其温度依赖性。将根据工作硬化的长期应力理论来讨论结果。通过对阶段Ⅲ开始时的应力τⅢ的温度依赖性的分析，我们得出镍的堆垛层错能和变形晶体中应力集中的大小。特别注意以下问题：哪些淬火参数对结构敏感，哪些对晶体的微观结构不敏感？同时确定各个滑移线的长度和高度。他们检查了有关应力集中的信息，并与工作硬化理论的预测非常吻合。

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《Journal of Applied Physics》 |1963年第11期|共8页
作者
Mader Siegfried; Seeger Alfred; Leitz Christoph;
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作者单位

Max‐Planck‐Institut für Metallforschung;

Stuttgart, Germany;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
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正文语种 eng
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入库时间 2022-08-17 13:25:22

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1. Work Hardening and Dislocation Arrangement of fcc Single Crystals. II. Electron Microscope Transmission Studies of NiCo Single Crystals and Relation to Work‐Hardening Theory [J] . Mader Siegfried, Seeger Alfred, Thieringer Hansamp Journal of Applied Physics . 1963,第11期

机译：fcc单晶的工作硬化和位错排列。二。 NiCo单晶的电子显微镜透射研究及其与工作硬化理论的关系
2. Dislocation multiplication in stage Ⅱ deformation of fcc multi-slip single crystals [J] . Markus Stricker, Markus Sudmanns, Katrin Schulz, Journal of the Mechanics and Physics of Solids . 2018,第OCTa期

机译：fcc多滑单晶Ⅱ期变形中的位错倍增
3. Slip band formation and mobile dislocation density generation in high rate deformation of single fcc crystals [J] . Wang ZQ, Beyerlein IJ, Lesar R Philosophical magazine: structure and properties of condensed matter . 2008,第9期

机译：单一fcc晶体高速率变形中的滑带形成和移动位错密度生成
4. Dislocation structure and deformation hardening alloy fcc single crystals at the mesolevel [C] . L A Teplyakova, T S Kunitsyna, N A Koneva International Conference and Youth Scientific School on Materials and Technologies of New Generations in Modern Materials Science . 2016

机译：Mesolevel的位错结构和变形硬化合金FCC单晶
5. Continuum dislocation dynamics modeling of the deformation of FCC single crystals [D] . Xia, Shengxu. 2016

机译：FCC单晶变形的连续脱位动力学建模
6. Electronic structure of Q-A in reaction centers from Rhodobacter sphaeroides. I. Electron paramagnetic resonance in single crystals. [O] . R A Isaacson, F Lendzian, E C Abresch, 1995

机译：Q-A在球形球形红细菌反应中心的电子结构。 I.单晶中的电子顺磁共振。
7. Modelling plastic deformation in a single-crystal nickel-based superalloy using discrete dislocation dynamics [O] . 2016

机译：使用离散位错动力学模拟单晶镍基高温合金中的塑性变形
8. Study of Low Temperature Plastic Deformation Mechanisms of alpha-Titanium Single Crystals. [R] . Naka, S. 1983

机译：α钛单晶低温塑性变形机理研究。

Work Hardening and Dislocation Arrangement of fcc Single Crystals. I. Plastic Deformation and Slip Line Studies of Nickel Single Crystals

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