1) ferrimagnetic phase
铁磁相
1.
EIS, AES and XPS were employed to study the corrosion resistance of 1Cr18Ni9Ti stainless steel with α′martensite phase (ferrimagnetic phase ) induced by low temperature (-70℃) elongation in acidic NaCl solution.
实验结果表明:形变诱发α′马氏体(铁磁相)的存在影响材料的耐蚀性。
2.
The experimental results show that the pitting sensibility is related to the ferrimagnetic phase content.
结果表明:形变马氏体相(铁磁相)的存在,影响材料孔蚀的诱发和发展:低频离散型和低频实部收缩型频谱特征均说明有孔蚀诱发和发展的剧烈变化过程;界面电化学参数的变化规律进一步说明:当马氏体相含量小于6%和大于22%时,材料的孔蚀敏感性随马氏体相含量的增加而增大;当马氏体相含量约在6~22%范围时,孔蚀敏感性又随马氏体相增多而下降。
3.
Different degrees of tensile deformation were respectively applied to 1Cr18Ni9Ti stainless steel plates to obtain the steel samples with various contents of α' martensite (ferrimagnetic phase).
通过低温(-70℃)拉伸方法,制备出具有不同马氏体(铁磁相)含量的1Cr18Ni9Ti(AISI321)奥氏体不锈钢试件。
3) phase magnet
相位磁铁
4) Magnetite phase
磁铁矿相
5) ferromagnetic phase transformation
铁磁性相变
6) ferromagnetic phase content
铁磁相含量
1.
Furthermore, the deformation-induced martensite has strong effect on its pit corrosive sensitivity when the ferromagnetic phase content is low.
对不同程度低温形变的1Cr18Ni9Ti亚稳态奥氏体不锈钢在氧化物介质中孔蚀敏感性与铁磁相含量的关系进行了探讨。
补充资料:钨铁电炉出铁(吉林铁合金厂)
钨铁电炉出铁(吉林铁合金厂)
吻 他排由帕中桩了士朴屏人乙曰“
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