渗铝复合激光冲击对321不锈钢腐蚀疲劳性能的影响∗

李微; 肖国源; 陈辉涛; 杨蕾; 张圣德

引用本文:	李微,肖国源,陈辉涛,杨蕾,张圣德.渗铝复合激光冲击对321不锈钢腐蚀疲劳性能的影响∗[J].中国表面工程,2022,35(2):140~151
	LI Wei,XIAO Guoyuan,CHEN Huitao,YANG Lei,ZHANG Shengde.Effect of Aluminizing and Laser Shock Peening on Corrosion Fatigue Properties of 321 Stainless Steel[J].China Surface Engineering,2022,35(2):140~151

【打印本页】【HTML】【下载PDF全文】【查看/发表评论】【EndNote】【RefMan】【BibTex】

←前一篇|后一篇→

过刊浏览高级检索

本文已被：浏览 1697次下载 1030次	码上扫一扫！
分享到：微信更多字体:加大+\|默认\|缩小-
渗铝复合激光冲击对321不锈钢腐蚀疲劳性能的影响∗
李微^1,2, 肖国源^1,2, 陈辉涛^1,2, 杨蕾^1,2, 张圣德³
1.长沙理工大学能源与动力工程学院长沙 410114;2.清洁能源与智能电网湖南省 2011 协同创新中心长沙 410114;3.日本电力中央研究所东京 240-0196 日本

摘要:

针对聚焦型太阳能热发电换热管材料在熔融铝硅环境中易发生腐蚀疲劳失效的问题，采用粉末包埋渗铝和激光冲击对 AISI 321 不锈钢进行表面改性，研究其熔融铝硅环境下腐蚀疲劳性能。结果表明，渗铝钢表面形成以 FeAl 金属间化合物为主的渗层，尽管能够有效地隔离基体和腐蚀介质，但是作为疲劳裂纹的形核源，会导致腐蚀疲劳寿命降低 40%；经不同功率密度的激光冲击强化处理后，渗铝钢表面硬度显著提高，延缓了疲劳裂纹萌生，提升了耐蚀性，降低了腐蚀损伤的影响，疲劳损伤占据主导地位，使得渗铝钢腐蚀疲劳寿命提高 100%~200%。

关键词: AISI 321 不锈钢渗铝激光冲击腐蚀疲劳

DOI：10.11933/j.issn.1007-9289.20210803002

分类号:TG156;TB114

基金项目:国家自然科学基金(51675058，52075048)；湖南省创新计划(2018RS3073)；湖南省教育厅优秀青年(21B0304)；长沙理工大学双一流科学研究国际合作拓展(2019IC15)资助项目

Effect of Aluminizing and Laser Shock Peening on Corrosion Fatigue Properties of 321 Stainless Steel

LI Wei^1,2, XIAO Guoyuan^1,2, CHEN Huitao^1,2, YANG Lei^1,2, ZHANG Shengde³

1.School of Energy and Power Engineering, Changsha University of Science & Technology,Changsha 410114 , China;2.Hunan Province 2011 Collaborative Innovation Center of Clean Energy and Smart Grid,Changsha 410114 , China;3.Japan Electric Power Central Research Institute, Tokyo 240-0196, Japan

Abstract:

Aiming at the problem on corrosion fatigue failure of heat exchange tube material for Concentrating solar thermal power generation in molten aluminum silicon environment, surface modification with powder embedded aluminum and laser shock technology is applied in AISI 321 stainless steel, and the corrosion fatigue performance under molten aluminum-silicon environment is investigated. The results show that the aluminized layer mainly composed of FeAl intermediate compound, although can effectively protect substrate from corrosive medium, but as a fatigue crack nucleation source, can lead to corrosion fatigue life reduced by 40%. The surface hardness of aluminized steel is significantly improved after laser shock strengthening treatment with different power densities, which delays fatigue crack initiation, improves corrosion resistance and reduces the influence of corrosion damage, thus resulting in fatigue damage playing a dominant role, which increases the corrosion fatigue life of aluminized steel by 100%-200% .

Key words: AISI 321 stainless steel aluminizing laser shock peening corrosion fatigue