(v14preprint41)Formation of nanocrystalline surface for AISI 304 stainlesssteel and DIN ck15 carbon steel and its effect on corrosion andWear corrosion resistance.

S. AmiriVala; C. Dehghanian

首页> 外文期刊>Journal of Corrosion Science and Engineering >(v14preprint41)Formation of nanocrystalline surface for AISI 304 stainlesssteel and DIN ck15 carbon steel and its effect on corrosion andWear corrosion resistance.

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(v14preprint41)Formation of nanocrystalline surface for AISI 304 stainlesssteel and DIN ck15 carbon steel and its effect on corrosion andWear corrosion resistance.

机译：（V14Preprint41）形成AISI 304不锈钢和DIN CK15碳钢的纳米晶体表面及其对耐腐蚀性和耐腐蚀性的影响。

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In this study, two essential goals were followed: 1) formation of Nano-crystallization ofsurface by shotpeening, 2) Evaluation of wear corrosion characteristics in solution withpH =2. These works were done on 304 stainless steel and ck15 low carbon steel. Nanocrystallizationlayer surface on steels were formed by severe plastic deformation done byshot peening. Formation of Nano-crystallization was checked by XRD. The layerproduced on steel surface had a significant hardness containing residual compressivestrength which not only improved fatigue life by 20% but also increased the wearcorrosion resistance of the samples. The evaluation of wear corrosion was conducted inseveral pH and 1% NaCl solutions with two different load pressures, the trend of wearcorrosion was examined by weight loss and DC polarization tests.

机译：在这项研究中，遵循了两个基本目标：1）通过ShotPeening形成纳米结晶，2）溶液耐磨特性评价溶液= 2。这些作品是在304不锈钢和CK15低碳钢上完成的。钢上的纳米晶层表面由严重的塑性变形形成，形成斑点喷丸。通过XRD检查纳米结晶的形成。钢表面上的层产生的具有显着的硬度含有残留的压缩体长，不仅提高了20％的疲劳寿命，而且还增加了样品的耐腐蚀性抗性。对耐磨腐蚀的评估是用两种不同的载荷压力进行的pH和1％NaCl溶液，通过减肥和直流偏振试验检查耐磨症的趋势。

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来源
《Journal of Corrosion Science and Engineering》 |2011年第null期|共11页
作者
S. AmiriVala; C. Dehghanian;
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作者单位

Graduate student from Science and Research Branch Islamic Azad University Tehran Iran;

Professor at the University of Tehran Tehran Iran;

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原文格式 PDF
正文语种 eng
中图分类冶金技术;
关键词
wear corrosion; corrosion; polarization; weight loss; Nano-crystallization.;

机译：耐腐蚀;腐蚀;极化;减肥;纳米结晶。;

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1. (v14preprint41)Formation of nanocrystalline surface for AISI 304 stainlesssteel and DIN ck15 carbon steel and its effect on corrosion andWear corrosion resistance. [J] . S. AmiriVala, C. Dehghanian Journal of Corrosion Science and Engineering . 2011,第Null期

机译：（V14Preprint41）形成AISI 304不锈钢和DIN CK15碳钢的纳米晶体表面及其对耐腐蚀性和耐腐蚀性的影响。
2. Microstructure and corrosion resistance of nitrogen-rich surface layers on AISI 304 stainless steel by rapid nitriding in a hollow cathode discharge [J] . Yang Li, Yongyong He, Shangzhou Zhang, Applied Physics . 2018,第1期

机译：空心阴极放电中快速氮化处理AISI 304不锈钢上富氮表面层的组织和耐蚀性
3. Low Temperature Plasma Nitriding Process of AISI 304L Austenitic Stainless Steels for Improving Surface Hardness and Corrosion Resistance [J] . In-Sup Lee Journal of Korean Institute of Metal and Materials . 2009,第10期

机译：AISI 304L奥氏体不锈钢的低温等离子体渗氮工艺，以提高表面硬度和耐腐蚀性
4. Microstructure, Mechanical and Corrosion Behaviour of Dissimilar Weldments between AISI 304 Stainless Steels and AISI 1020 Carbon Steels Produced by Gas Tungsten Arc Welding Using Different Consumables [C] . W. Chuaiphan, S. Chandra-ambhorn, B. Sornil, International conference on sheet metal;SheMet'09; 20090406-08;20090406-08; Birmingham(GB);Birmingham(GB) . 2009

机译：使用不同消耗品的钨极氩弧焊生产的AISI 304不锈钢和AISI 1020碳钢之间的异种焊缝的组织，力学和腐蚀行为
5. Frequency effect on corrosion fatigue crack propagation of different microstructures of AISI 304 type stainless steel. [D] . Al-Jarallah, Bader Mohammed. 2007

机译：频率对AISI 304型不锈钢不同组织的腐蚀疲劳裂纹扩展的影响。
6. Real-Time Corrosion Monitoring of AISI 1010 Carbon Steel with Metal Surface Mapping in Sulfolane [O] . Andrzej Bak, Bozena Losiewicz, Violetta Kozik, 2019

机译：环丁砜中具有金属表面映射的AISI 1010碳钢实时腐蚀监测
7. Preconditioning of AISI 304 stainless steel surfaces in the presence of flavins—Part II: Effect on biofilm formation and microbially influenced corrosion processes [O] . Nina Wurzler, Jan D. Schutter, Ralph Wagner, 2020

机译：五氟锡（Flavins第II部分）中AISI 304不锈钢表面的预处理：对生物膜形成的影响和微血管腐蚀过程

(v14preprint41)Formation of nanocrystalline surface for AISI 304 stainlesssteel and DIN ck15 carbon steel and its effect on corrosion andWear corrosion resistance.

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