研究了解和铬离子高、中能量重迭注入对50Mn18Cr4电机护环钢SCC性能的影响.SCC对比试验结果表明:(1)在QHJ-79标准硝酸盐介质中,离子注入试样的SCC出现时间(tf)比不经注入试样的延长了6倍以上,致钝和维钝电流密度下降了一个数量级;(2)在阴极充氢条件下,两种试样均对氢致开裂(HIC)不敏感,但离子注入可抑制氢诱发腐蚀.用AES-PRO、RBS、XPS-PRO、EDAX、金相及电化学方法分析讨论了护环钢在QHJ-79标准介质中的SCC机理和离子注入改善SCC抗力及抗氢锈发腐蚀性能的机制.
The effeCts of overlap-implanting rare-earth erbium and chromuim ions with high-medium energy on stress corrosion cracking (SCC) have been studied for generator retaining ring steel 50Mn18Cr4. The results of comparstive SCC tests show that: (1) The time to SCC appearance if in the nitrate solution prepared according to QHJ-79 standard for implanted specimens is postponed averagely over 6 times, and the critical current densities required to cause and maintain passivation decrease by one order of magnitude. (2) In the medium for cathodally charging of hydrogen, the steel is insensitive to hydrogeninduced corrosion (HIC); the HIC resistance can be improved by Er++Cr+ implantation remarkably. The mechanism of SCC for the steel in QHJ-79 standard solution and of improvement of resistance to SCC and HIC by ion-implantation is discussed on the basis of the results of AES-PRO, RBS, XPS-PRO, EDAX, metallography and electrochemistry tests.
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| [2] | KatsutoshiORITA.YasumiIKEDA |
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