OALib Journal期刊
ISSN: 2333-9721
费用：99美元

投递稿件

查看量	下载量

相关文章
更多...

材料工程 2015

NiAl/AlBN封严涂层的电偶腐蚀行为

DOI: 10.11868/j.issn.1001-4381.2015.11.008, PP. 44-49

孙杰,石超,赵丹

Keywords: AlBN封严涂层,NiAl封严涂层,电偶腐蚀

Full-Text Cite this paper Add to My Lib

Abstract:

采用空气等离子喷涂工艺制备了NiAl/AlBN封严涂层。研究了NiAl/AlBN涂层在5%(质量分数)NaCl溶液中的电偶腐蚀行为。结合极化曲线、开路电位和微观形貌(SEM)观察,对封严涂层的腐蚀机理进行了探讨。通过计算出的平均电偶电流密度,评价了NiAl/AlBN封严涂层的电偶腐蚀敏感性。结果表明,AlBN涂层的腐蚀电位较NiAl涂层低,两者相差约70mV,电偶腐蚀过程中,腐蚀电位较低的AlBN涂层作为电偶对的阳极发生腐蚀,NiAl涂层作为阴极得到保护。NiAl/AlBN涂层的电偶电流密度为3.5331μA/cm2。电偶腐蚀后,电偶对的阳极、阴极的自腐蚀电位均降低了,阳极电位从-808mV负移到-883mV,阴极电位从-740mV负移到-800mV;电偶电位为-814mV。随着腐蚀时间的延长,AlBN涂层的防护性能逐渐减弱。

References

[1]	JOHNSTON R E, Mechanical characterization of Al-Si-hBN, NiCrAl-Bentonite, and NiCrAl-Bentonite-hBN freestanding abradable coatings[J]. Surface & Coatings Technology, 2011, 205:3268-3273.
[2]	XU C G, DU L Z, YANG B, et al. The effect of Al content on the galvanic corrosion behaviour of coupled Ni/graphite and Ni-Al coatings[J]. Corrosion Science 2011, 53:2066-2074.
[3]	章德铭,任先京,腾佰秋,等. 可磨耗封严涂层性能评价技术研究进展[J]. 热喷涂技术,2009,(2):19-22. ZHANG De-ming,REN Xian-jing,TENG Bai-qiu, et al. Research progress on performance evaluation techniques of abradable seal coatings[J]. Thermal Spray Technology,2009,(2):19-22.
[4]	易茂中,张先龙,郑济宏,等. 可磨耗封严涂层及其性能评价[J]. 航空工艺技术,1998,(3):3-5. YI Mao-zhong,ZHANG Xian-long,ZHENG Ji-hong, et al. Development of abradable seal coatings and their performance evaluation[J]. Aeronautical Manufacturing Technology,1998,(3):3-5.
[5]	戴赫,汪礼敏,张佳萍,等. 新型高温隔热可磨耗封严涂层研究及展望[J]. 材料导报,2008,(7):18-21. DAI He, WANG Li-min, ZHANG Jia-ping, et al. Research and prospect of novel high-temperature thermal resistant abradable sealing coating[J]. Materials Review,2008,(7):18-21.
[6]	丁一,章德铭,刘建明,等. 高温可磨耗封严涂层研究进展[J]. 科技传播,2012,4(23):95-87. DING Yi,ZHANG De-ming,LIU Jian-ming, et al. Advances in high temperature abradable seal coating[J]. Public Communication of Science & Technology,2012,4(23):95-87.
[7]	黄伟. 高温可磨耗封严复合涂层的制备及性能研究[D].武汉:武汉理工大学,2011. HUANG Wei. Study of preparation and properties of abradable composite seal coating used in high temperature[D]. Wuhan:Wuhan University of Technology,2011.
[8]	BARTSCH M, BAUFELD B, DALKILIC S, et al. Testing and characterization of ceramic thermal barrier coatings[J]. Mater Sci Forum, 2005, 492-493:3-8.
[9]	朱佳,冀晓鹃,揭晓武,史明. 封严涂层材料及应用[J]. 材料开发与应用,2008,(4):78-84. ZHU Jia, JI Xiao-juan, JIE Xiao-wu, et al. Sealing coatings:m aterials and application[J]. Development and Application of Materials,2008,(4):78-84.
[10]	OKA T. Basic characteristic of different abradable coatings[C]//Proceedings of International Thermal Spraying Conference, Germany:German Welding Society, 1990. 58-67.
[11]	WANG Hou-gong. Criteria for analysis of abradable coatings[J]. Surface & Coatings Technology, 1996, 79(1-3):71-75.
[12]	沈虹,郑天慧,陈玉洁. 航空发动机封严技术的进展[J]. 燃气涡轮试验与研究,2011,(4):51-55. SHEN Hong,ZHENG Tian-hui,CHEN Yu-jie. Improvement of aero-engine sealing technology[J]. Gas Turbine Experiment and Research,2011,(4):51-55.
[13]	陈礼顺,王彦岭,卢建红,等. 航空发动机封严技术的研究和应用进展[J]. 航空制造技术,2008,(8):82-84. CHEN Li-shun,WANG Yan-ling,LU Jian-hong, et al. Development of study and application of aeroengine sealing technology[J]. Aeronautical Manufacturing Technology,2008,(8):82-84.
[14]	FARAOUN H I, GROSDIDIER T, SEICHEPINE J L, et al. Improvement of thermally sprayed abradable coating by microstructure control[J]. Surface and Coatings Technology, 2006, 201:2303-2312.
[15]	FARAOUN H I, SEICHEPINE J L, CODDET C, et al. Modelling route for abradable coatings[J]. Surface and Coatings Technology, 2006, 200:6578-6582.
[16]	许存官,杜令忠,张伟刚,等. Ni/石墨封严涂层的盐雾腐蚀研究[J]. 航空材料学报,2010,30(4):53-58. XU Cun-guan, DU Ling-zhong, ZHANG Wei-gang, et al. Salt spray corrosion of Ni/graphite abradable sealing coatings[J]. Journal of Aeronautical Materials, 2010,30(4):53-58.
[17]	郑济宏. 航空发动机热喷涂封严涂层应用[C]//2006年中国西安热喷涂在工业中应用技术交流研讨会论文集,西安:陕西省机械工程学会,2006.5. ZHENG Ji-hong. Applications of thermal spray seal coating for aeroengine[C]//2006 China Xi'an Thermal Spray Application Papers in Technical Communication Industry Seminar, Xi'an:Shaanxi Institute of Mechanical Engineering, 2006.5
[18]	高俊国,陆峰,郭孟秋,等. 可磨耗封严涂层研究现状及发展趋势[J]. 热喷涂技术,2012,(2):6-11. GAO Jun-guo,LU Feng,GUO Meng-qiu, et al. Research status and development of abradable seal coatings[J]. Thermal Spray Technology,2012,(2):6-11.
[19]	尹春雷,陈美英,占佳,等. 可磨耗封严涂层研究进展[J]. 航空制造技术,2008,(20):92-94. YIN Chun-lei,CHEN Mei-ying,ZHAN Jia, et al. Development progress of abradable seal coatings[J]. Aeronautical Manufacturing Technology,2008,(20):92-94.
[20]	LEI B, LI M, ZHAO Z,et al. Corrosion mechanism of an Al-BN abradable seal coating system in chloride solution[J]. Corrosion Science, 2014, 79:198-205.
[21]	MURUGANA K, RAGUPATHY A, BALASUBRAMANIAN V, et al. Optimizing HVOF spray process parameters to attain minimum porosity and maximum hardness in WC-10Co-4Cr coatings[J]. Surface & Coatings Technology, 2014, 247:90-102.
[22]	WANG L, FANG J C, ZHAO Z Y,et al. Application of backward propagation network for forecasting hardness and porosity of coatings by plasma spraying[J]. Surface & Coatings Technology, 2007,201(9-11):5085-5089.

Full-Text

Contact Us

service@oalib.com

QQ:3279437679

WhatsApp +8615387084133