Improving the intergranular corrosion resistance of 304 stainless steel by grain boundary network control

Changliang Hu; Shuang Xia; Hui Li; Tingguang Liu; Bangxin Zhou; Wenjue Chen; Ning Wang

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Improving the intergranular corrosion resistance of 304 stainless steel by grain boundary network control

机译：通过晶界网络控制提高304不锈钢的耐晶间腐蚀性

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The grain boundary network (GBN) was controlled by grain boundary engineering (GBE) in a 304 stainless steel. The total length proportion of 23" coincidence site lattice (CSL) boundaries was increased to more than 70% associating with the formation of large size highly twinned grain-cluster microstructure. Only coherent twin boundaries (23C) were found to be resistant to intergranular corrosion (ICC) and only such boundaries could be termed "special" ones. The improvement of resistance to IGC of the GBE specimen can be attributed to the large size grain-clusters associated with high proportion of the ∑3n boundaries and the interconnected ∑3n-type triple junctions.

机译：晶界网络（GBN）由晶界工程（GBE）控制在304不锈钢中。与大尺寸高度孪晶晶粒簇微结构的形成相关，23“符合位点晶格（CSL）边界的总长度比例增加到70％以上。仅发现相干的孪晶边界（23C）耐晶间腐蚀（ICC），只有这样的边界才可以称为“特殊”边界，GBE样品对IGC的抵抗力的提高可以归因于与高比例的∑3n边界和相互连接的Σ3n-相关的大尺寸晶粒团簇类型三重结。

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来源
《Corrosion science》 |2011年第5期|p.1880-1886|共7页
作者
Changliang Hu; Shuang Xia; Hui Li; Tingguang Liu; Bangxin Zhou; Wenjue Chen; Ning Wang;
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作者单位

Institute of Materials, Shanghai University, Shanghai 200072, PR China;

Institute of Materials, Shanghai University, Shanghai 200072, PR China;

Institute of Materials, Shanghai University, Shanghai 200072, PR China;

Institute of Materials, Shanghai University, Shanghai 200072, PR China;

Institute of Materials, Shanghai University, Shanghai 200072, PR China;

Institute of Materials, Shanghai University, Shanghai 200072, PR China;

Baoshan Iron & Steel Co. Ltd., Shanghai 200431, PR China;

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正文语种 eng
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关键词
A. Stainless steel; B. SEM; B. Weight loss; C. Intergranular corrosion;

机译：A.不锈钢;B。扫描电镜;B。体重减轻;C．晶间腐蚀;

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专利

1. The relationship between grain boundary character distribution and intergranular corrosion resistance of 304 austenitic stainless steel [J] . Fang Xiaoying, Cui Xiao, Qin Congxiang, Materials science forum . 2011,第期

机译：304奥氏体不锈钢的晶界特征分布与耐晶间腐蚀性的关系
2. Improvement of Transpassive Intergranular Corrosion Resistance of 304 Austenitic Stainless Steel by Thermomechanical Processing for Twin-induced Grain Boundary Engineering [J] . Wei Zhong JIN, Hiroyuki KOKAWA, Zhan Jie WANG, ISIJ international . 2010,第3期

机译：双晶晶粒边界工程的热机械处理提高304奥氏体不锈钢的晶间耐腐蚀性能
3. Improvement of Transpassive Intergranular Corrosion Resistance of 304 Austenitic Stainless Steel by Thermomechanical Processing for Twin-induced Grain Boundary Engineering [J] . Wei Zhong Jin, Hiroyuki Kokawa, Zhan Jie Wang, ISIJ international . 2010,第3期

机译：双晶晶粒边界工程的热机械处理提高304奥氏体不锈钢的耐晶间腐蚀性。
4. The relationship between grain boundary character distribution and intergranular corrosion resistance of 304 austenitic stainless steel [C] . Fang Xiaoying, Cui Xiao, Qin Congxiang, IUMRS International Conference in Asia;IUMRS-ICA 2010 . 2011

机译：304奥氏体不锈钢的晶界特征分布与耐晶间腐蚀性的关系
5. Intergranular boron segregation and grain boundary character in Alloy 304 austenitic stainless steel. [D] . Kurban, Michael. 2001

机译：304合金奥氏体不锈钢的晶间硼偏析和晶界特征。
6. Evaluation of Grain Boundary Network and Improvement of Intergranular Cracking Resistance in 316L Stainless Steel after Grain Boundary Engineering [O] . Tingguang Liu, Shuang Xia, Qin Bai, 2019

机译：316L不锈钢晶界工程后晶界网络的评价及抗晶间开裂性的提高。
7. Grain boundary control for improved intergranular stress corrosion cracking resistance in austenitic stainless steels: new approach [O] . Marrow, T James, Engelberg, Dirk, Jivkov, A, 2006

机译：晶界控制提高奥氏体不锈钢的晶间应力腐蚀开裂性能：新方法
8. Dresden 1 Radiation Level Reduction Program. Intergranular Corrosion Tests of Sensitized Type-304 Stainless Steel in Dow NS-1, and Stress Corrosion Cracking Tests of Type-304 Stainless Steel and Carbon and Low Alloy Steels in Dow [R] . Walker, W. L. 1978

机译：德累斯顿1辐射水平降低计划。陶氏Ns-1中敏化型304不锈钢的晶间腐蚀试验，以及陶氏304型不锈钢和碳素和低合金钢的应力腐蚀开裂试验

Improving the intergranular corrosion resistance of 304 stainless steel by grain boundary network control

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