ELECTRON CONCEPT FOR HYDROGEN BRITTLENESS OF AUSTENITIC STEELS

机译：奥氏体钢氢脆性的电子概念

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A concept for hydrogen-caused embrittlement of austenitic steels is proposed based on the ab initio calculations and experimental studies of the electron structure. It is obtained that hydrogen increases the density of electron states at the Fermi level and, correspondingly, the concentration of free electrons. As a result, the metallic character of interatomic bonds is enhanced within the clouds of hydrogen atoms around the dislocations, which locally decreases the shear modulus and produces the softening effect. Based on the effect of alloying elements on the electron structure of austenitic steels, their influence on hydrogen brittleness is predicted and tested. The hydrogen-caused localization of plastic deformation is interpreted in terms of hydrogen-increased concentration of thermodynamically equilibrium concentration of vacancies.

机译：基于AB Initio计算和电子结构的实验研究，提出了一种奥氏体钢的致奥氏体脆性概念。获得的是，氢气增加了Fermi水平的电子状态的密度，并且相应地浓缩自由电子。结果，在围绕脱位围绕脱臼的氢原子云中增强了间隙键的金属特征，其局部地降低剪切模量并产生软化效果。基于合金元素对奥氏体钢的电子结构的影响，预测并测试其对氢脆性的影响。塑性变形的氢气导致定位在氢气增加浓度的缺失的空位的氢气增加。

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来源
《International Hydrogen Conference》|2014年||共10页
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作者
V. G. GAVRILJUK; B. D. SHANINA; V. N. SHYVANYUK; S. M. TEUS;
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中图分类 TK91-53;
关键词
Hydrogen embrittlement; Electron structure; Austenitic steels; Mechanical properties; Shear localization;

机译：氢脆;电子结构;奥氏体钢;机械性能;剪切定位;

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专利

1. Electronic effect on hydrogen brittleness of austenitic steels [J] . V. G. Gavriljuk, B. D. Shanina, V. N. Shyvanyuk, Journal of Applied Physics . 2010,第8期

机译：电子对奥氏体钢氢脆性的影响
2. Development of high nickel austenitic steels for the application to fast reactor cores, (I) alloy design with the aid of the d-electrons concept [J] . Yoshinori Murata, Masahiko Morinaga, Natsuo Yukawa, 日本原子力学会誌 . 1999,第12期

机译：高镍奥氏体钢的研制在快速反应器芯的应用中，（i）借助于D-Elighton概念的合金设计
3. Development of high nickel austenitic steels for the application to fast reactor cores, (I) alloy design with the aid of the d-electrons concept [J] . Yoshinori Murata, Masahiko Morinaga, Natsuo Yukawa, 日本原子力学会誌 . 1999,第12期

机译：高镍奥氏体钢的研制在快速反应器芯的应用中，（i）借助于D-Elighton概念的合金设计
4. ELECTRON CONCEPT FOR HYDROGEN BRITTLENESS OF AUSTENITIC STEELS [C] . V. G. GAVRILJUK, B. D. SHANINA, V. N. SHYVANYUK, International Hydrogen Conference . 2014

机译：奥氏体钢氢脆性的电子概念
5. APPLICABILITY OF CATHODIC PROTECTION IN PREVENTION OF CORROSION DAMAGE TO STEEL TENDONS IN PRESTRESSED CONCRETE (HIGH STRENGTH STEEL, HYDROGEN EMBRITTLEMENT, BRITTLE CRACKING) [D] . SCANNELL, WILLIAM THOMAS 1986

机译：阴极保护在预防预应力混凝土（高强度钢，氢脆，脆性开裂）中钢腱的腐蚀损伤中的适用性
6. Role of Hydrogen-Charging on Nucleation and Growth of Ductile Damage in Austenitic Stainless Steels [O] . Eric Maire, Stanislas Grabon, Jérôme Adrien, 2019

机译：充氢在奥氏体不锈钢中的形核和延展性的增长中的作用
7. Gas phase hydrogen permeation through ferritic iron, austenitic stainless steel and neutron irradiated austenitic stainless steel from near 300/sup 0/K to 873/sup 0/K [O] . N.R. Quick 1976

机译：通过铁素体铁的气相氢渗透，奥氏体不锈钢和中子辐照奥氏体不锈钢从接近300 / sop 0 / k至873 / sup 0 / k
8. Mechanism for Hydrogen-Induced Brittle Fracture of Austenitic Stainless Steels [R] . Caskey, G. R. 1978

机译：氢致奥氏体不锈钢脆性断裂机理

ELECTRON CONCEPT FOR HYDROGEN BRITTLENESS OF AUSTENITIC STEELS

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