Research Methods and Research Progress for Cavitation Corrosion of Passive Metals
摘 要
综述了钝态金属材料的空蚀研究方法,阐述了典型的钝态金属材料不锈钢和钛及钛合金空蚀行为的研究进展,介绍了空蚀破坏程度、形貌结构和成分组成、表面力学性质以及电化学行为的主要测试方法,总结了应用以上研究方法获得的不锈钢和钛及钛合金的空蚀特征和规律,提出了钝态金属材料空蚀研究的进一步发展方向。
Abstract
The research methods for cavitation corrosion of passive metals are summarized. The present research progress of the cavitation corrosion behavior for typical passive metals, such as stainless steel and titanium and its alloys, are introduced. The main test methods are reviewed from the perspectives of cavitation corrosion degree, structure and composition, surface mechanical properties and electrochemical behavior. The cavitation corrosion characteristics of stainless steel and titanium and titanium alloys are discussed. The further study tendency on cavitation corrosion behavior of passive metals is also proposed.
中图分类号 TG172.9 DOI 10.11973/fsyfh-201805010
所属栏目 专论
基金项目 国家自然科学基金(51361024)
收稿日期 2017/1/7
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联系人作者林翠(lincwi@126.com)
引用该论文: LIN Cui,YANG Ying,ZHAO Xiaobin. Research Methods and Research Progress for Cavitation Corrosion of Passive Metals[J]. Corrosion & Protection, 2018, 39(5): 369
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参考文献
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【5】SANTA J F,BLANCOA J A,GIRALDOB J E,et.al. Cavitation erosion of martensitic and austenitic stainless steel welded coatings[J]. Wear,2011,271(9/10):1445-1453.
【6】KNAPP R T. Recent investigations of the mechanics of cavitation and cavitation damage[J]. Transactions of the ASME,1955,75(8):1045-1054.
【7】PATELLA R F,REBOUD J L,ARCHER A. Cavitation damage measurement by 3D laser profilometry[J]. Wear,2000,246(1/2):59-67.
【8】OSTERMAN A,BACHERTB B,SIROKA B,et.al. Time dependant measurements of cavitation damage[J]. Wear,2009,266(9/10):945-951.
【9】WANG Z Y,ZHU J H. Effect of phase transformation on cavitation erosion resistance of some ferrous alloys[J]. Materials Science and Engineering:A,2003,358(1/2):273-278.
【10】LI D G,WANG J D,CHEN D R,et.al. Ultrasonic cavitation erosion of Ti in 0.35% NaCl solution with bubbling oxygen and nitrogen[J]. Ultrasonics Sonochemistry,2015,26:99-110.
【11】周青,刘成龙,廖志康,等. 空蚀与冲蚀交互作用下锡黄铜的材料流失及力学性能研究[J]. 润滑与密封,2014,39(8):81-85.
【12】张茄,沈汉杰,张稚琴,等. 不锈钢表层对空化与电化学腐蚀交互作用的纳米力学响应[J]. 金属学报,2013,49(5):614-620.
【13】刘景军,雍兴跃,林玉珍,等. 不锈钢在氯化物介质中的空泡腐蚀行为及机理[J]. 中国腐蚀与防护学报,2005,25(3):157-161.
【14】SOYAMA H,FUTAKAWA M. Estimation of incubation time of cavitation erosion for various cavitating conditions[J]. Tribology Letters,2004,17(1):27-29.
【15】柳伟,郑玉贵,刘常升,等. Cr-Mn-N奥氏体-铁索体不锈钢的空蚀行为[J]. 金属学报,2003,39(1):85-88.
【16】雍兴跃,吉静,张雅琴,等. 空化作用下奥氏体不锈钢空泡腐蚀的过程与AFM形貌[J]. 腐蚀科学与防护技术,2011,23(2):116-120.
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【19】骆素珍,敬和民,郑玉贵. CrMnN双相不锈钢的空泡腐蚀行为研究[J]. 中国腐蚀与防护学报,2003,23(5):276-281.
【20】骆素珍,郑玉贵,姜胜利,等. 1Cr18Mn14N双相不锈钢在腐蚀介质中的抗空蚀性能[J]. 腐蚀科学与防护技术,2004,16(6):352-356.
【21】刘强,李波,陈希章,等. Cr-Co-Ni-Mn奥氏体不锈钢的空泡腐蚀研究[J]. 腐蚀科学与防护技术,2012,24(5):381-384.
【22】YOSHⅡE T,SATO K,XU Q,et.al. Defect structures in nickel and SUS304SS formed by the collapse of cavitation bubbles[J]. Journal of Nuclear Materials,2010,398(1/3):227-231.
【23】刘强,李波,陈希章,等. 新型耐空蚀Cr-Co-Ni-Mn奥氏体不锈钢研究[J]. 功能材料,2012,5(43):673-676.
【24】李栋梁,邹冠池,郑根图,等. 微观组织对空化作用下不锈钢表层力学性质的影响[J]. 材料研究学报,2012,26(3):274-278.
【25】NIEDERHOFER P,HUTH S. Cavitation erosion resistance of high interstitial CrMnCN austenitic stainless steels[J]. Wear,2013,301(1/2):457-466.
【26】雍兴跃,吉静,张雅琴,等. 微/纳米力学技术对金属空泡腐蚀表层力学性质的定量表征[J]. 中国腐蚀与防护学报,2011,31(1):40-45.
【27】雍兴跃,李栋梁,李斌,等. 金属表层力学性质劣化引起的电化学行为变化[C]//2010年全国腐蚀电化学及测试方法学术会议摘要集.[出版地不详]:[出版者不详],2010.
【28】ZHENG Y G,LUO S Z,KE W. Cavitation erosion-corrosion behaviour of CrMnB stainless overlay and 0Cr13Ni5Mo stainless steel in 0.5 M NaCl and 0.5 M HCL solutions[J]. Tribology International,2008,41(12):1181-1189.
【29】关昕. 钛及Ti-6Al-4V合金的空蚀行为研究[D]. 天津:天津大学,2010.
【30】李栋梁. 奥氏体不锈钢表层力学性质变化与腐蚀失效间的关系[D]. 北京:北京化工大学,2021.
【31】姜胜利,郑玉贵,骆素珍,等. 空蚀孕育期前后316L不锈钢的腐蚀行为[J]. 腐蚀与防护,2004,25(4):139-145.
【32】王保成,朱金华. 超声空化下不锈钢钝化膜的半导行为[J]. 金属学报,2007,43(8):813-817.
【33】KWOK C T,CHENG F T,MAN H C. Synergistic effect of cavitation erosion and corrosion of various engineering alloys in 3.5% NaCl solution[J]. Materials Science and Engineering:A,2000,290(1/2):145-154.
【34】FERNÁNDEZ-DOMENE R M,BLACSCO-TAMARIT E,GARCÍA-GARCÍA D M,et al. Repassivation of the damage generated by cavitation on UNS N08031 in a LiBr solution by means of electrochemical techniques and confocal laser scanning microscopy[J]. Corrosion Science,2010,52(10):3453-3464.
【35】李海斌. TA2和TC4合金空蚀行为及抗空蚀涂层的研究[D]. 天津:天津大学,2013.
【36】NEVILLE A,MCDOUGALL B A B. Erosion-and cavitation-corrosion of titanium and its alloys[J]. Wear,2001,250(1/12):726-735.
【37】HATTORI S,MAEKAWA N,KAWAI Y. Cavitation erosion of titanium alloys[J]. The Japan Society of Mechanical Engineers,2000,66(648):1627-1633.
【38】HATTORI S,TAINAKA A. Cavitation erosion of Ti-Ni base shape memory alloys[J]. Wear,2007,262(1):191-197.
【39】史烨婷. 纯钛及TC4钛合金抗空蚀性能的研究[D]. 天津:天津大学,2012.
【40】MAN H C,CUI Z D,YUE T M,et al. Cavitation erosion behavior of laser gas nitride Ti and Ti-6Al-4V[J]. Materials Science and Engineering:A,2003,355(1/2):167-173.
【41】JU D Y,HAN B. Investigation of water cavitation peening-induced microstructures in the near-surface layer of pure titanium[J]. Journal of Materials Processing Technology,2009,209(10):4789-4794.
【42】赵广志. 激光冲击Ti6A14V钛合金的强化机制及其抗空泡腐蚀性能研究[D]. 无锡:江南大学,2012.
【2】魏欣. 钝态金属在氯离子环境中的局部腐蚀行为[D]. 大连:大连理工大学硕士论文,2013.
【3】张志萍,周勇,张健. 抗空蚀金属材料的研究进展[J]. 热处理技术与装备,2001,32(6):1-3.
【4】金泰来. 空化与空蚀研究的现状和动向[J]. 水力发电,1982(1):38-43.
【5】SANTA J F,BLANCOA J A,GIRALDOB J E,et.al. Cavitation erosion of martensitic and austenitic stainless steel welded coatings[J]. Wear,2011,271(9/10):1445-1453.
【6】KNAPP R T. Recent investigations of the mechanics of cavitation and cavitation damage[J]. Transactions of the ASME,1955,75(8):1045-1054.
【7】PATELLA R F,REBOUD J L,ARCHER A. Cavitation damage measurement by 3D laser profilometry[J]. Wear,2000,246(1/2):59-67.
【8】OSTERMAN A,BACHERTB B,SIROKA B,et.al. Time dependant measurements of cavitation damage[J]. Wear,2009,266(9/10):945-951.
【9】WANG Z Y,ZHU J H. Effect of phase transformation on cavitation erosion resistance of some ferrous alloys[J]. Materials Science and Engineering:A,2003,358(1/2):273-278.
【10】LI D G,WANG J D,CHEN D R,et.al. Ultrasonic cavitation erosion of Ti in 0.35% NaCl solution with bubbling oxygen and nitrogen[J]. Ultrasonics Sonochemistry,2015,26:99-110.
【11】周青,刘成龙,廖志康,等. 空蚀与冲蚀交互作用下锡黄铜的材料流失及力学性能研究[J]. 润滑与密封,2014,39(8):81-85.
【12】张茄,沈汉杰,张稚琴,等. 不锈钢表层对空化与电化学腐蚀交互作用的纳米力学响应[J]. 金属学报,2013,49(5):614-620.
【13】刘景军,雍兴跃,林玉珍,等. 不锈钢在氯化物介质中的空泡腐蚀行为及机理[J]. 中国腐蚀与防护学报,2005,25(3):157-161.
【14】SOYAMA H,FUTAKAWA M. Estimation of incubation time of cavitation erosion for various cavitating conditions[J]. Tribology Letters,2004,17(1):27-29.
【15】柳伟,郑玉贵,刘常升,等. Cr-Mn-N奥氏体-铁索体不锈钢的空蚀行为[J]. 金属学报,2003,39(1):85-88.
【16】雍兴跃,吉静,张雅琴,等. 空化作用下奥氏体不锈钢空泡腐蚀的过程与AFM形貌[J]. 腐蚀科学与防护技术,2011,23(2):116-120.
【17】张念武. 几种典型材料的空蚀磨损机理研究[D]. 大连:大连海事大学,2008.
【18】GRAJALES D H M,OSPINA C M G,TSCHIPTSCHIN A P. Mesoscale plasticity anisotropy at the earliest stage of cavitation-erosion damage of a high nitrogen austenitic stainless steel[J]. Wear,2009,267(1/4):99-103.
【19】骆素珍,敬和民,郑玉贵. CrMnN双相不锈钢的空泡腐蚀行为研究[J]. 中国腐蚀与防护学报,2003,23(5):276-281.
【20】骆素珍,郑玉贵,姜胜利,等. 1Cr18Mn14N双相不锈钢在腐蚀介质中的抗空蚀性能[J]. 腐蚀科学与防护技术,2004,16(6):352-356.
【21】刘强,李波,陈希章,等. Cr-Co-Ni-Mn奥氏体不锈钢的空泡腐蚀研究[J]. 腐蚀科学与防护技术,2012,24(5):381-384.
【22】YOSHⅡE T,SATO K,XU Q,et.al. Defect structures in nickel and SUS304SS formed by the collapse of cavitation bubbles[J]. Journal of Nuclear Materials,2010,398(1/3):227-231.
【23】刘强,李波,陈希章,等. 新型耐空蚀Cr-Co-Ni-Mn奥氏体不锈钢研究[J]. 功能材料,2012,5(43):673-676.
【24】李栋梁,邹冠池,郑根图,等. 微观组织对空化作用下不锈钢表层力学性质的影响[J]. 材料研究学报,2012,26(3):274-278.
【25】NIEDERHOFER P,HUTH S. Cavitation erosion resistance of high interstitial CrMnCN austenitic stainless steels[J]. Wear,2013,301(1/2):457-466.
【26】雍兴跃,吉静,张雅琴,等. 微/纳米力学技术对金属空泡腐蚀表层力学性质的定量表征[J]. 中国腐蚀与防护学报,2011,31(1):40-45.
【27】雍兴跃,李栋梁,李斌,等. 金属表层力学性质劣化引起的电化学行为变化[C]//2010年全国腐蚀电化学及测试方法学术会议摘要集.[出版地不详]:[出版者不详],2010.
【28】ZHENG Y G,LUO S Z,KE W. Cavitation erosion-corrosion behaviour of CrMnB stainless overlay and 0Cr13Ni5Mo stainless steel in 0.5 M NaCl and 0.5 M HCL solutions[J]. Tribology International,2008,41(12):1181-1189.
【29】关昕. 钛及Ti-6Al-4V合金的空蚀行为研究[D]. 天津:天津大学,2010.
【30】李栋梁. 奥氏体不锈钢表层力学性质变化与腐蚀失效间的关系[D]. 北京:北京化工大学,2021.
【31】姜胜利,郑玉贵,骆素珍,等. 空蚀孕育期前后316L不锈钢的腐蚀行为[J]. 腐蚀与防护,2004,25(4):139-145.
【32】王保成,朱金华. 超声空化下不锈钢钝化膜的半导行为[J]. 金属学报,2007,43(8):813-817.
【33】KWOK C T,CHENG F T,MAN H C. Synergistic effect of cavitation erosion and corrosion of various engineering alloys in 3.5% NaCl solution[J]. Materials Science and Engineering:A,2000,290(1/2):145-154.
【34】FERNÁNDEZ-DOMENE R M,BLACSCO-TAMARIT E,GARCÍA-GARCÍA D M,et al. Repassivation of the damage generated by cavitation on UNS N08031 in a LiBr solution by means of electrochemical techniques and confocal laser scanning microscopy[J]. Corrosion Science,2010,52(10):3453-3464.
【35】李海斌. TA2和TC4合金空蚀行为及抗空蚀涂层的研究[D]. 天津:天津大学,2013.
【36】NEVILLE A,MCDOUGALL B A B. Erosion-and cavitation-corrosion of titanium and its alloys[J]. Wear,2001,250(1/12):726-735.
【37】HATTORI S,MAEKAWA N,KAWAI Y. Cavitation erosion of titanium alloys[J]. The Japan Society of Mechanical Engineers,2000,66(648):1627-1633.
【38】HATTORI S,TAINAKA A. Cavitation erosion of Ti-Ni base shape memory alloys[J]. Wear,2007,262(1):191-197.
【39】史烨婷. 纯钛及TC4钛合金抗空蚀性能的研究[D]. 天津:天津大学,2012.
【40】MAN H C,CUI Z D,YUE T M,et al. Cavitation erosion behavior of laser gas nitride Ti and Ti-6Al-4V[J]. Materials Science and Engineering:A,2003,355(1/2):167-173.
【41】JU D Y,HAN B. Investigation of water cavitation peening-induced microstructures in the near-surface layer of pure titanium[J]. Journal of Materials Processing Technology,2009,209(10):4789-4794.
【42】赵广志. 激光冲击Ti6A14V钛合金的强化机制及其抗空泡腐蚀性能研究[D]. 无锡:江南大学,2012.
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