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Process and Performance Comparison of Iron Coatings by Cold Spraying and Arc Spraying

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  • (1.Midea Group, Foshan 528312, China;2.Foshan Shunde Midea Electric Appliance Manufacturing Co., Ltd., Foshan 528312, China)

Received date: 2023-03-20

  Revised date: 2023-04-12

  Accepted date: 2023-05-20

  Online published: 2023-09-15

Abstract

A detailed study and analysis were conducted on the preparation conditions and coating properties of two processes of cold spraying and arc spraying for spraying magnetic conductive coatings on the surface of aluminum cookware, providing a basis for the application of highperformance magnetic conductive coatings on the surface of aluminum cookware.By means of scanning electron microscope, tensile testing machine, salt spray test chamber and thermal shock chamber, the cross-sectional morphology, composition, bonding strength, corrosion resistance, cold and hot impact resistance, and electromagnetic performance change rate of coatings prepared by two different processes were studied.Results showed that the prepared coatings both had good electromagnetic heating performance.The magnetic conductive coating prepared by cold spraying was significantly better than that prepared by traditional arc spraying in terms of bonding strength, corrosion resistance and cold and hot impact resistance.The change rate of electromagnetic properties of the magnetic conductive coating prepared by cold spraying was significantly lower than that prepared by traditional arc spraying.However, the noise in service of iron coating with arc spraying was slightly lower than that prepared by cold spraying.

Cite this article

CAO Dahua, WAN Peng, ZHOU Yujie, YANG Ling, LI Hongwei . Process and Performance Comparison of Iron Coatings by Cold Spraying and Arc Spraying[J]. Materials Protection, 2023 , 56(9) : 120 -124 . DOI: 10.16577/j.issn.1001-1560.2023.0222

References

[1] 党 哲,高东强.热喷涂制备耐磨涂层的研究进展[J].电镀与涂饰, 2021, 40(6): 427-436.DANG Z, GAO D Q.Research progress in thermal spraying technologies for preparing wear-resistant coatings[J].Electroplating & Finishing, 2021, 40(6): 427-436.

[2] 周治文,江旭东,黄 朴,等.高速电弧喷涂FeAlCrTiC 涂层组织结构及耐磨、耐腐蚀性能[J].材料导报, 2019, 33(16): 2 771-2 776.ZHOU Z W, JIANG X D, HUANG P, et al.Microstructure,wear and corrosion resistance of FeAlCrTiC coatings prepared by high-velocity arc spraying[J].Materials Reports, 2019, 33(16): 2 771-2 776.

[3] 丁怀博,刘成威,陈嘉诚,等.高速电弧喷涂Fe 基涂层的耐磨性能研究[J].热喷涂技术, 2021, 13(3): 16-22.DING H B, LIU C W, CHEN J C, et al.Study on wear resistance property of Fe-based coating by high velocity arc spraying[J].Thermal Spray Technology, 2021, 13(3):16-22.

[4] 刘玉鑫,葛光男,吴双杰,等.海水抽水蓄能机组过流部件表面电弧喷涂涂层性能研究[J].大电机技术, 2021(5): 88-91.LIU Y X, GE G N, WU S J, et al.Study on the corrosion protection performance of arc spraying on the surface of water-passing components of seawater pumped storage unit[J].Large Electric Machine and Hydraulic Turbine, 2021(5):88-91.

[5] 葛 益,雒晓涛,李长久.冷喷涂固态颗粒沉积中颗粒间结合形成机制研究进展[J].表面技术, 2020, 49(7):60-67.GE Y, LUO X T, LI C J.Research progress on interface bonding formation mechanism of solid particle deposition in cold spray[J].Surface Technology, 2020, 49(7): 60-67.

[6] 钟 厉, 王昭银, 张华东.冷喷涂沉积机理及其装备的研究进展[J].表面技术, 2015, 44(4): 16-20.ZHONG L, WANG Z Y, ZHANG H D.Research progress of precipitation mechanism and apparatus of cold spray[J].Surface Technology, 2015, 44(4): 16-20.

[7] 靳子昂,朱丽娜,刘 明,等.热喷涂技术制备铝涂层及其在3.5%NaCl 溶液中耐腐蚀性的研究现状[J].表面技术, 2019, 48(10): 220-229.JIN Z A,ZHU L N,LIU M,et al.Research status of aluminum coating prepared by thermal spraying technology and its corrosion resistance in 3.5%NaCl solution [J].Surface Technology, 2019, 48(10): 220-229.

[8] 李长久.中国冷喷涂研究进展[J].中国表面工程, 2009,22(4): 5-14.LI C J.The state-of-art of research and development on cold spraying in China[J].China Surface Engineering,2009,22(4): 5-14.

[9] 郑 涛,陈 辉,代双贺.冷喷涂技术及涂层处理工艺的研究进展[J].金属材料与冶金工程, 2009, 37(6):56-61.ZHENG T, CHEN H, DAI S H.Advances research in cold gas spray technology and coating treatment craftwork[J].Metal Materials and Metallurgy Engineering,2009, 37(6):56-61.

[10] 刘 觐,张伟旗,张友亮,等.冷喷涂表面技术沉积机理及其应用关键技术研究[J].有色金属工程, 2021, 11(12): 50-56.LIU J,ZHANG W Q,ZHANG Y L,et al.Research on deposition mechanism and application key technology of cold spray surface technology[J].Nonferrous Metals Engineering, 2021, 11(12): 50-56.

[11] 黄仁忠,孙 文,郭双全,等.冷喷涂技术的研究进展与应用[J].中国表面工程, 2020, 33(4): 16-25.HUANG R Z, SUN W, GUO S Q, et al.Research developments and applications of cold spray technology[J].China Surface Engineering, 2020, 33(4): 16-25.

[12] 赵国锋,王莹莹,张海龙,等.冷喷涂设备及冷喷涂技术应用研究进展[J].表面技术, 2017, 46(11): 198-205.ZHAO G F, WANG Y Y, ZHANG H L, et al.Application of cold spraying equipment and cold spraying technology[J].Surface Technology, 2017, 46(11): 198-205.

[13] 李文亚,陈 亮,余 敏,等.热处理对冷喷涂Fe 涂层组织与性能影响研究[J].中国表面工程, 2010, 23(2):90-94.LI W Y, CHEN L, YU M, et al.Effect of heat treatment on microstructure and properties of cold sprayed iron coating[J].China Surface Engineering, 2010, 23(2): 90-94.

[14] 王洪涛,陈 枭,白小波,等.Al/Fe 金属复合涂层冷喷沉积行为及结构特征[J].兵器材料科学与工程, 2015, 38(4): 1-4.WANG H T,CHEN X,BAI X B,et al.Deposition behavior and microstructure characterization of cold sprayed Al/Fe composite coating[J].Ordnance Material Science and Engineering, 2015, 38(4): 1-4.

[15] 马晓琳,周 勇,刘玉栋.超音速电弧喷涂Fe 基非晶态涂层的电化学行为[J].热加工工艺, 2016, 45(14):155-157.MA X L, ZHOU Y, LIU Y D.Electrochemical behavior of Fe-based coatings containing amorphous phase deposited by supersonic arc spraying [J].Hot Working Technology,2016, 45(14): 155-157.

[16] 林尽染.热处理对高速电弧喷涂Fe 基非晶涂层抗空蚀性能 的 影 响[J].材 料 热 处 理 学 报, 2021, 42 (12):159-165.LIN J R.Effect of heat treatment on cavitation erosion resistance of high velocity wire arc sprayed Fe-based amorphous coatings[J].Transactions of Materials and Heat Treatment,2021, 42(12): 159-165.

[17] ASSADI H, GARTNER F, STOLTENHOFF T, et al.Bonding mechanism in cold gas spraying[J].Acta Materialia,2003, 51(15): 4 379-4 394.

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