[1]孙宇海漩,贺春林,杨杰,等.铜合金在海水中的腐蚀与防护研究进展[J].中国材料进展,2023,42(11):874-883.[doi:10.7502/j.issn.1674-3962.202111006]
 SUN Yuhaixuan,HE Chunlin,YANG Jie,et al.Research Progress on Corrosion and Protection of Copper Alloys in Seawater[J].MATERIALS CHINA,2023,42(11):874-883.[doi:10.7502/j.issn.1674-3962.202111006]
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铜合金在海水中的腐蚀与防护研究进展()
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中国材料进展[ISSN:1674-3962/CN:61-1473/TG]

卷:
42
期数:
2023年第11期
页码:
874-883
栏目:
出版日期:
2023-11-30

文章信息/Info

Title:
Research Progress on Corrosion and Protection of Copper Alloys in Seawater
文章编号:
1674-3962(2023)11-0874-10
作者:
孙宇海漩贺春林杨杰凌云鹤池坪礁
沈阳大学 辽宁省先进材料制备技术重点实验室,辽宁 沈阳 110044
Author(s):
SUN Yuhaixuan HE Chunlin YANG Jie LING Yunhe CHI Pingjiao
Liaoning Provincial Key Laboratory of Advanced Materials, Shenyang University, Shenyang 110044, China
关键词:
铜合金海水腐蚀腐蚀机理影响因素防护技术
Keywords:
copper alloy seawater corrosion corrosion mechanism influencing factorprotection technology
分类号:
TG172.5
DOI:
10.7502/j.issn.1674-3962.202111006
文献标志码:
A
摘要:
铜合金具有良好的耐海水腐蚀和抗海生物污损性能,在海洋工程中有广泛的应用。铜合金在海水中的腐蚀行为和防护技术的相关研究对发展海洋工程﹑开发海洋资源及提高海洋经济效益等尤为重要。在自然海水环境中,铜合金腐蚀的影响因素包括:铜合金的类型﹑不同海域﹑海水流速﹑pH值及微生物等。为了提高铜合金的耐蚀性,延长其在海水中的服役寿命,采用的防护措施主要有:电化学保护﹑涂料﹑表面镀层及缓蚀剂等。首先概述了铜镍合金在海水中的腐蚀机理,然后重点综述了铜合金海水腐蚀的主要影响因素及防护技术的研究新进展。最后,展望了铜合金海水腐蚀与防护方面的研究发展趋势。
Abstract:
Copper alloys have good resistance to seawater corrosion and marine biofouling, and are widely used in marine engineering. Therefore, the research on the corrosion behavior and protection technology of copper alloys in seawater is particularly important for the development of marine engineering and marine resources, and the improvement of marine economic benefits. In the natural seawater environment, the factors that affect the corrosion of copper alloys include: the type of copper alloys, different sea areas, seawater velocity, pH value, and microorganisms. In order to improve the corrosion resistance of copper alloys and prolong their service life in seawater, the main protective measures adopted are: electrochemical protection, paint, surface coatings, corrosion inhibitors, and so on. In this paper, the corrosion mechanism of coppernickel alloys in seawater is summarized firstly, and then the main influencing factors of coppernickel alloy corrosion in seawater and the new research progress of protection technology are summarized emphatically. Finally, the research and development trends of seawater corrosion and protection of copper alloys are prospected.

参考文献/References:

\[1\]HOU B, LI X, MA X, et al. npj Materials Degradation\[J\], 2017, 1(4): 1-10. \[2\]顾彩香,张小磊,赵向博.船舶工程\[J\], 2014, 36(3): 10-12+56. GU C X, ZHANG X L, ZHAO X B. Ship Engineering\[J\], 2014, 36(3): 10-12+56. \[3\]王雪珍,卢光明,姜山,等. 中国材料进展\[J\],2023,42(5):431-440. WANG X Z, LU G M, JIANG S, et al. Materials China\[J\], 2023, 42(5): 431-440. \[4\]田丰,白秀琴,贺小燕,等. 表面技术\[J\],2018,47(8): 182-196. TIAN F, BAI X Q, HE X Y, et al. Surface Technology\[J\], 2018, 47(8): 182-196. \[5\]李晓刚.海洋工程材料腐蚀行为与机理\[M\]. 北京:化学工业出版社, 2017. LI X G. Corrosion Behavior and Mechanism of Marine Engineering Materials\[M\]. Beijing: Chemical Industry Press, 2017. \[6\]李冬冬,吴忠良,许佳宁,等. 腐蚀与防护\[J\],2016, 37(6):461-466+471. LI D D, WU Z L, XU J N, et al. Corrosion and Protection\[J\], 2016, 37(6): 461-466+471. \[7\]王光雍.自然环境的腐蚀与防护\[M\].北京:化学工业出版社, 1997. WANG G Y. Corrosion and Protection of the Natural Environment\[M\]. Beijing: Chemical Industry Press, 1997. \[8\]CIRISANO F, BENEDETTI A, LIGGIERI L, et al. Colloids and Surfaces A Physicochemical and Engineering Aspects\[J\], 2016, 505(20): 158-164. \[9\]CONSTANTINIDES I, ADRIAENS A, ADAMS F. Applied Surface Science\[J\], 2002, 189(1-2): 90-101. \[10\]YANG R, WEN J, ZHOU Y, et al. Journal of Materials Engineering and Performance\[J\], 2019, 28(12): 2866-2872. \[11\]NADY H, HELAL N H, ELRABIEE M M, et al. Materials Chemistry Physics\[J\], 2012, 134(2-3): 945-950. \[12\]YIN B, YIN Y, LEI Y, et al. Chemical Physics Letters\[J\], 2011, 509(4-6): 192-197. \[13\]夏兰廷,王录才,黄桂桥. 中国铸造装备与技术\[J\],2002, 6: 1-4. XIA L T, WANG L C, HUANG G Q. China Foundry Machinery and Technology\[J\], 2002, 6: 1-4. \[14\]李晓刚, 国家材料腐蚀与防护科学数据中心\[DB/OL\].\[2021-11-6\]https://wwwcorrdataorgcn/pages/corrosionphp. LI X G. National Materials Corrosion and Protection Data Center\[DB/OL\]. \[2021-11-6\]https://wwwcorrdataorgcn/pages/corrosionphp. \[15\]孙飞龙,李晓刚,卢琳,等. 金属学报\[J\],2013, 49(10): 1211-1218. SUN F L, LI X G, LU L, et al. Acta Metallurgica Sinica\[J\], 2013, 49(10): 1211-1218. \[16\]DING K K, LIU S T, CHENG W H, et al. Journal of Materials Engineering and Performance\[J\], 2021, 30(8): 6027-6028. \[17\]赵月红,林乐耘,崔大为. 腐蚀科学与防护技术\[J\],2003, 5(15): 266-271. ZHAO Y H, LIN L Y, CUI D W. Corrosion Science and Protection Technology\[J\], 2003, 5(15): 266-271. \[18\]彭文山,段体岗,侯健,等. 装备环境工程\[J\],2020, 17(8): 63-69. PENG W S, DUAN T G, HOU J, et al. Equipment Environmental Engineering\[J\], 2020, 17(8):63-69. \[19\]陈翔峰,穆振军,许春生,等. 装备环境工程\[J\],2013, 10(2): 1-3+24. CHEN X F, MU Z J, XU C S, et al. Equipment Environmental Engineering\[J\], 2013, 10(2): 1-3+24 \[20\]刘大杨,魏开金,李文军,等. 材料开发与应用\[J\],1993, 8(6): 9-14+21. LIU D Y, WEI K J, LI W J, et al. Development and Application of Materials\[J\]. 1993, 8(6): 9-14+21. \[21\]李晓孟,张彦敏,国秀花,等. 河南科技大学学报(自然科学版)\[J\],2017, 38(3): 10-13. LI X M, ZHANG Y M, GUO X H, et al. Journal of Henan University of Science and Technology (Natural Science)\[J\], 2017, 38(3): 10-13. \[22\]杜娟, 王洪仁, 杜敏, 等.腐蚀科学与防护技术\[J\],2008, 20(1): 12-18. DU J, WANG H R, DU M, et al. Corrosion Science and Protection Technology\[J\], 2008, 20(1): 12-18. \[23\]戴明城,万新斌,鞠剑峰,等. 腐蚀与防护\[J\],2019, 40(7): 479-484+489. DAI M C,WANG X B, JU J F, et al. Corrosion and Protection\[J\], 2019, 40(7): 479-484+489. \[24\]BESGHAIER R, DHOUIBI L, JEANNIN M, et al. Chemistry Africa\[J\], 2019, 2: 483-495. \[25\]罗宗强,辛保亮,张卫文,等.华南理工大学学报(自然科学版)\[J\],2011, 39(11): 125-131. LUO Z Q, XIN B L, ZHANG W W, et al. Journal of South China University of Technology(Natural Science Edition)\[J\], 2011, 39(11): 125-131. \[26\]陈海燕,朱有兰,舒畅. 表面技术\[J\],2005, 6: 14-16. CHEN H Y, ZHU Y L, SHU C. Surface Technology\[J\], 2005, 6: 14-16. \[27\]GUO D, KWOK C T. Corrosion Science\[J\], 2020, 177: 108994. \[28\]KHAN A F, PATIL A P. Transactions of the Indian Institute of Metals\[J\], 2008, 61: 225-229. \[29\]BASU S, HANH B M, CHUA I, et al. Journal of Colloid and Interface Science\[J\], 2020, 568: 185-197. \[30\]尹衍天,董丽华,刘涛,等. 海洋材料的微生物附着腐蚀\[M\]. 北京:科学出版社,2012. YIN Y T, DONG L H, LIU T, et al. Microbial Adhesion and Corrosion of Marine Materials\[M\]. Beijing: Science Press, 2012. \[31\]CARVALHO M L, DOMA J, SZTYLER M, et al. Bioelectrochemistry\[J\], 2014, 97: 2-6. \[32\]FLEMMING H C, WINGENDER J. Nature Reviews Microbiology\[J\], 2010, 8: 623-633. \[33\]LI X, CHEN H Y, CHEN P M, et al. Journal of Materials Engineering and Performance\[J\], 2017, 26(5): 2102-2109. \[34\]CHEN S Q, WANG P, ZHANG D. Corrosion Science\[J\], 2014, 87(5): 407-415. \[35\]王成铭,王永年,高玉柱,等. 全面腐蚀控制\[J\],2012,26(1):44-47+53. WANG C M, WANG Y N, GAO Y Z, et al. Total Corrosion Control\[J\], 2012, 26(1):44-47+53. \[36\]雷冰,胡胜楠,万文涛,等. 材料保护\[J\],2016, 49(10):27-30+6. LEI B, HU S N, WANG W T, et al. Materials Protection\[J\], 2016, 49(10): 27-30+6. \[37\]王伟. 材料开发与应用\[J\],2016, 31(6): 93-98. WANG W. Development and Application of Materials\[J\], 2016, 31(6): 93-98. \[38\]余存烨,王罗贤,龚春欢,等. 腐蚀与防护\[J\],2011, 32(1): 45-50. YU C Y, WANG L X, GONG C H, et al. Corrosion and Protection\[J\], 2011,32(1):45-50. \[39\]ROMNSZKI L, DATSENKO I, MAY Z, et al. Bioelectrochemistry\[J\], 2014, 97: 7-14. \[40\]LIU J, LU Z H, ZHANG L W, et al. Progress in Organic Coatings\[J\], 2020, 148: 105909. \[41\]BAHARI H S, YE F, CARRILLO E, et al. International Journal of Biological Macromolecules\[J\], 2020, 162: 1566-1577. \[42\]ADHAMI S, ATPOUR M, ALLAFCHIAN A R. Journal of SolGel Science and Technology\[J\], 2015, 74(3): 800-809. \[43\]SARANGI C K, SAHU B P, MISHRA B K, et al. Journal of Applied Electrochemistry\[J\], 2021(51): 1157-1174. \[44\]马壮,董书琳,董世知,等. 金属热处理\[J\],2011, 36(9):38-41. MA Z, DONG S L, DONG S Z, et al. Heat Treatment of Metals\[J\], 2011,36(9):38-41. \[45\]ALSAADI S, RAMAN R K, ANISUR M R, et al. Corrosion Science\[J\], 2021, 182(15): 109299-109306. \[46\]KWOK C T, WONG P K, MAN H C. Surface and Coatings Technology\[J\], 2021, 408: 126804. \[47\]WONG P K, KWOK C T, MAN H C, et al. Corrosion Science\[J\], 2012, 57(1): 228-240. \[48\]WONG P K, KWPK C T, MAN H C, et al. Materials Chemistry & Physics\[J\], 2016, 181: 397-408. \[49\]贺春林,付馨莹,陈宏志,等.沈阳大学学报(自然科学版)\[J\], 2019, 31(2): 87-91+112. HE C L, FU X Y, CHEN H Z, at al. Journal of Shenyang University(Natural Science)\[J\], 2019, 31(2): 87-91+112. \[50\]张先勇,陆忠海,刘杰,等. 装备环境工程\[J\],2021, 18(10): 69-76. ZHANG X Y, LU Z H, LIU J, et al. Equipment Environmental Engineering\[J\], 2021, 18(10): 69-76. \[51\]YOUNES A K, GHAYAD I, EMEL B, et al. Innovations in Corrosion and Materials Science\[J\], 2018, 8(1): 60-66. \[52\]HUANG H L, BU F R. Corrosion Science\[J\], 2020, 165: 108413. \[53\]ElHAFEZ G M A, BADAWY W A. Electrochimica Acta\[J\], 2013, 108: 860-866. \[54\]MA L R, LU W Q, LIAO Q Q. Sustainable Chemistry and Pharmacy\[J\], 2021, 22: 100488. \[55\]ELSAOUD A A, MABROUK E M, SEYAM D F, et al. Journal of Bio and TriboCorrosion\[J\], 2021, 7(64): 2-9.

备注/Memo

备注/Memo:
收稿日期:2021-11-06修回日期:2022-04-14 基金项目:国家自然科学基金资助项目(51171118);辽宁省重点研发计划项目(2020JH210100011) 第一作者:孙宇海漩,女,1997年生,硕士 通讯作者:贺春林,男,1964年生,教授,博士生导师, Email:ccllhhe@126.com
更新日期/Last Update: 2023-10-25