STRESS CORROSION CRACKING OF ALLOY 600 IN PWR PRIMARY WATER : INFLUENCE OF CHROMIUM, HYDROGEN AND OXYGEN DIFFUSION

机译：PWR初级水中合金600的应力腐蚀开裂：铬，氢气扩散的影响

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Alloy 600, a nickel base alloy containing 15 % chromium, is used in the primary circuit of Pressurized Water Reactor (PWR). This alloy is well-known to be susceptible to Stress Corrosion Cracking (SCC) in PWR primary water. Despite the fact that many laboratory studies have been performed and that many models are proposed in the literature, the mechanisms involved are still not well-known. In some models, the transport of species (oxygen, hydrogen and chromium) has a key role. Therefore, experiments and calculations have been performed to study the transport of chromium, hydrogen and oxygen in Alloy 600 and in model microstructures. The results lead to the conclusion that the transport of oxygen and hydrogen cannot be considered as the rate-controlling steps. The asymmetric aspect of the crack tip and of the chromium depletion ahead of the crack lead to the conclusion that chromium diffusion could play a significant role in the mechanism.

机译：合金600，含有15％铬的镍基合金，用于加压水反应器（PWR）的初级回路。该合金是众所周知的，可容易受到PWR初级水中的应力腐蚀裂纹（SCC）。尽管已经进行了许多实验室研究并且在文献中提出了许多模型，但所涉及的机制仍然不着名。在某些型号中，物种（氧气，氢气和铬）的运输具有关键作用。因此，已经进行了实验和计算，以研究合金600和模型微结构中铬，氢气和氧的运输。结果导致结论是，氧气和氢的运输不能被认为是速率控制步骤。裂纹尖端的不对称方面和铬耗尽前方的裂缝导致结论是铬扩散可以在机制中发挥重要作用。

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《International Conference on Environmental degradation of Materials in Nuclear Power Systems-Water Reactors》|2012年||共12页
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C. Guerre; P. Laghoutaris; J. Chene;
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中图分类 TB3-532;
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Stress corrosion cracking; Alloy 600; PWR primary water;

机译：压力腐蚀裂解;合金600;PWR初级水;

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专利

1. Mechanistic Understanding of Primary Water Stress Corrosion Cracking of Alloy 600 in PWR Water [J] . Ji Hyun Kim, Il Soon Hwang Transactions of the American nuclear society . 2004,第Jun期

机译：压水堆水中600合金一次水应力腐蚀开裂的机理理解
2. Stress Corrosion Cracking Mechanisms of Alloy 600 Polycrystals and Single Crystals in Primary Water-Influence of Hydrogen [J] . Foct F., Bouvier O. Metallurgical and Materials Transactions, A. Physical Metallurgy and Materials Science . 2000,第8期

机译：初生氢对合金600多晶和单晶应力腐蚀开裂的影响
3. Stress corrosion crack initiation of alloy 600 in PWR primary water [J] . Zhai Ziqing, Toloczko Mychailo B., Olszta Matthew J., Corrosion science . 2017,第jula期

机译：PWR一次水中600合金的应力腐蚀裂纹萌生
4. STRESS CORROSION CRACKING OF ALLOY 600 IN PWR PRIMARY WATER : INFLUENCE OF CHROMIUM, HYDROGEN AND OXYGEN DIFFUSION [C] . C. Guerre, P. Laghoutaris, J. Chene, International conference on environmental degradation of materials in nuclear power systems-water reactors . 2012

机译：压水堆原水中合金600的应力腐蚀开裂：铬，氢和氧扩散的影响
5. Stress corrosion cracking and internal oxidation of alloy 600 in high temperature hydrogenated steam and water [D] . Lindsay, John. 2015

机译：高温氢化蒸汽和水中合金600的应力腐蚀开裂和内部氧化
6. Stress Corrosion Cracking Behavior of Alloy 600 Coupled to Magnetite under High-Temperature Caustic Conditions [O] . Geun Dong Song, Jeoh Han, Soon-Hyeok Jeon, 2019

机译：高温苛性条件下耦合磁铁矿的600合金的应力腐蚀开裂行为
7. Oxidation Behavior around the Stress Corrosion Crack Tips of Alloy 600 under PWR Primary Water Environment [O] . Yun Soo Lim, Hong Pyo Kim, Seong Sik Hwang 2012

机译：PWR初级水环境下合金600应力腐蚀尖端的氧化行为

STRESS CORROSION CRACKING OF ALLOY 600 IN PWR PRIMARY WATER : INFLUENCE OF CHROMIUM, HYDROGEN AND OXYGEN DIFFUSION

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