石墨烯增强金属基复合涂层的研究进展

doi:10.11896/cldb.20080127

材料导报

2022, Vol. 36

Issue (8): 20080127-7 https://doi.org/10.11896/cldb.20080127

金属与金属基复合材料

石墨烯增强金属基复合涂层的研究进展

李格, 韩彬, 李美艳, 刘鹏, 李朝晖

中国石油大学(华东)材料科学与工程学院,山东青岛 266580

Research Progress of Graphene Reinforced Metal-based Composite Coating

LI Ge, HAN Bin, LI Meiyan, LIU Peng, LI Zhaohui

College of Materials Science and Engineering, China University of Petroleum, Qingdao 266580, Shandong, China

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摘要石墨烯因其优异的力学性能而被广泛用于增强金属基复合涂层。本文总结了制备石墨烯增强金属基复合涂层的方法以及不同制备方法的研究进展,归纳了石墨烯对金属基复合涂层性能的影响及其在复合材料中的强化机制。然而,目前在石墨烯增强金属基复合涂层强化机制方面的研究较少,加强并完善石墨烯在复合涂层中强化机制的研究有助于推动石墨烯金属基复合涂层在工业生产中的应用。

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	李格
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关键词: 金属基复合涂层石墨烯强化

Abstract: Graphene is widely used in reinforced metal matrix composite coatings because of its excellent mechanical properties. In this paper, the pre-paration methods of graphene reinforced metal matrix composite coatings and their research progress of different preparation methods are summarized. The influence of graphene on the properties of metal matrix composite coating and its strengthening mechanism in composite mate-rials are summarized. However, the research on the strengthening mechanism of graphene reinforced metal matrix composite coating is relatively rare. The improving research on the strengthening mechanism of graphene in composite coating will help to promote the application of graphene metal matrix composite coating in industrial production.

Key words: metal matrix composite coating graphene reinforce

出版日期: 2022-04-25 发布日期: 2022-04-27

ZTFLH:

TB333

基金资助: 海洋油气装备关键零部件耐磨耐蚀减摩涂层技术研究(2019GGX102052);中央高校基本科研业务费专项资金资助(20CX05009A)

通讯作者: hanbin@upc.edu.cn

作者简介: 李格,于2018年本科毕业于烟台大学材料科学与工程专业,2021年获中国石油大学(华东)材料工程专业硕士学位,师从韩彬教授,主要研究方向为材料表面改性。
韩彬,中国石油大学(华东)材料科学与工程学院副院长、教授、博士研究生导师。中国海洋材料产业技术创新战略联盟专家委员会委员、中国海洋材料产业技术创新战略联盟海洋油气装备与材料联盟副理事长、国家采油装备工程技术研究中心技术委员会委员、山东省海洋油气装备焊接与表面处理工程实验室主任、国家自然科学基金通讯评议专家。先后于1996年和1999年获中国石油大学(华东)学士和硕士学位;2004年获山东大学材料加工工程博士学位;2014年6月至2015年1月在美国南卫理工会大学作为访问学者。主要从事金属失效及表面工程、新材料焊接技术等的研究工作。自2013年以来,共发表论文40余篇,其中SCI10篇,EI 20篇。

引用本文:

李格, 韩彬, 李美艳, 刘鹏, 李朝晖. 石墨烯增强金属基复合涂层的研究进展[J]. 材料导报, 2022, 36(8): 20080127-7.
LI Ge, HAN Bin, LI Meiyan, LIU Peng, LI Zhaohui. Research Progress of Graphene Reinforced Metal-based Composite Coating. Materials Reports, 2022, 36(8): 20080127-7.

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http://www.mater-rep.com/CN/10.11896/cldb.20080127 或 http://www.mater-rep.com/CN/Y2022/V36/I8/20080127

1 Farshid Pahlevani, Rahul Kumar, Narjes Gorjizadeh, et al. Scientific Reports,2016,6(1),38740.
2 Wang C X. Microstructure and friction and wear properties of self-lubricating wear-resistant coating on austenitic stainless steel. Master's Thesis, Yanshan University, China,2016(in Chinese).
王彩霞.奥氏体不锈钢自润滑耐磨涂层微观结构与摩擦磨损性能.硕士学位论文,燕山大学,2016.
Journal of Materials Research and Technology,2020,9(3),6808.
4 Lee C, Wei X, Kysar J W, et al. Science,2008,321(5887),385.
5 Lin Z D, Shu S C, Li A, et al. Journal of Inorganic Materials,2019,34(5),469.
6 Kuang D, Hu W B. Journal of Inorganic Materials,2013,28(3),235(in Chinese).
匡达,胡文彬.无机材料学报,2013,28(3),235.
7 Xu X, Song L L, Guan Y R, et al. Journal of Material Heat Treatment,2019,40(5),24(in Chinese).
徐祥,宋玲玲,官雨柔,等.材料热处理学报,2019,40(5),24.
8 Bartolucci S F, Paras J, Rafiee M A, et al. Materials Science and Engineering: A,2011,528(27),7933.
9 Kauling A P, Seefeldt A T, Pisoni D P, et al. Advanced Materials,2018,30(44),1803784.
10 Rafiee M A, Rafiee J, Srivastava I, et al. Small,2010,6(2),179.
11 Ji X F, Gao Y B, Cheng S L, et al. Heat Treatment of Metals,2018,43(6),116(in Chinese).
姬秀芳,高一波,程少磊,等.金属热处理,2018,43(6),116.
12 Zhang L L, Zhao Z Y, Bai P K, et al. Materials Letters,2020,270,127711.
13 Sun W, Tan A W Y, Bhowmik A, et al. Surface and Coatings Technology,2019,378,125065.
14 Yu Y, Tian H L, Wang C L, et al. Heat Treatment of Metals,2018,43(10),173(in Chinese).
于洋,田浩亮,王长亮,等.金属热处理,2018,43(10),173.
15 Kumar C M P, Venkatesha T V, Shabadi R. Materials Research Bulletin,2013,48(4),1477.
16 Kuang D, Xu L, Lei L, et al. Applied Surface Science,2013,273,484.
17 Li O Y, Yang G R, Song W M, et al. International Journal of Minerals Research,2021,112(4),308.
18 Meng J S, Shi X P, Zhang S J, et al. In: 3rd International Conference on Material Engineering and Advanced Manufacturing Technology. Shanghai,2019,pp.012002.
19 Weng F, Chen C Z, Yu H J. Materials & Design,2014,58,412.
20 Hu M L, Xie C S, Tao Z Y. Machinist Metal Forming,2003(7),5(in Chinese).
胡木林,谢长生,陶曾毅.机械工人(热加工),2003(7),5.
21 Lu G C, Shi X L, Liu X Y, et al. Wear,2019,428-429,417.
22 Nicola Ferralis. Journal of Materials Science,2010,45(19),5135.
23 Hu Z Y, Yao B, Tong G Q, et al. High Power Laser and Particle Beams,2017,29(2),134(in Chinese).
胡增荣,幺博,童国权,等.强激光与粒子束,2017,29(2),134.
24 Zhang D, Cui X F, Jin G, et al. Applied Surface Science,2019,495,143581.
25 Hu Z, Tong G, Lin D, et al. Materials Science and Technology,2016,32(9),930.
26 Ma C. Study on microstructure and properties of laser cladding Ni-based composite coatings. Master's Thesis, Dalian University of Technology, China,2013(in Chinese).
马超.激光熔覆镍基复合涂层组织与性能研究.硕士学位论文,大连理工大学,2013.
27 周圣丰,戴晓琴,雷剑波,等.中国专利,CN201610645439.9,2016.
28 Yin D S, Chen K J, Song L, et al. Journal of Heilongjiang University of Science and Technology,2019,29(4),430(in Chinese).
尹冬松,陈客举,宋良,等.黑龙江科技学院学报,2019,29(4),430.
29 Li S M, An C Q, Hao J J. Plating & Finishing,2015,37(9),12(in Chinese).
李淑梅,安成强,郝建军.电镀与精饰,2015,37(9),12.
30 Shen C, Zhu D Z, Luo M Q, et al. The Chinese Journal of Nonferrous Metals,2019,29(4),51(in Chinese).
申超,朱德智,罗铭强,等.中国有色金属学报,2019,29(4),51.
31 Andy Nieto, Ankita Bisht, Debrupa Lahiri, et al. International Materials Reviews,2016,62(5),241.
32 Espallargas N. In: Future development of thermal spray coatings, Elsevier,2015,pp.1.
33 Zhu Z H. Study on mechanical properties of plasma sprayed graphene toughened alumina composite coatings. Master's Thesis, Suzhou University, China,2017(in Chinese).
朱朝晖.等离子喷涂石墨烯增韧氧化铝复合涂层力学性能研究.硕士学位论文,苏州大学,2017.
34 Zhong Y S. Study on wear resistance of graphene-Fe-based composite coatings prepared by thermal spraying and screen printing. Master's Thesis, Zhengzhou University, China,2017(in Chinese).
仲雨森.热喷涂—丝网印刷复合制备石墨烯—铁基复合涂层耐磨性研究.硕士学位论文,郑州大学,2017.
35 Wang Y. Study on wear behavior and corrosion resistance of graphene modified Al₂O₃-ZrO₂-Si₃N₄ composite coating. Master's Thesis, Harbin Institute of Technology, China,2018(in Chinese).
王悦.石墨烯改性Al₂O₃-ZrO₂-Si₃N₄复合涂层磨损行为及耐蚀性研究.硕士学位论文,哈尔滨工业大学,2018.
36 Yin S, Zhang Z, Ekoi E J, et al. Materials Letters,2017,196,172.
37 Tian H L, Guo M Q, Wang C L, et al. Rare Metal Materials and Engineering,2017,46(7),1881(in Chinese).
田浩亮,郭孟秋,王长亮,等.稀有金属材料与工程,2017,46(7),1881.
38 Feng C. Study on structure and wear properties of graphene modified Al₂O₃/TiO₂ coating. Master's Thesis, Harbin Institute of Technology, China,2018(in Chinese).
冯驰.石墨烯改性Al₂O₃/TiO₂涂层的结构及磨损性能研究.硕士学位论文,哈尔滨工业大学,2018.
39 Yang L H. Study on the application and tribological properties of carbon materials in coatings/thin films. Master's Thesis, Taiyuan University of Technology, China,2015(in Chinese).
杨灵华.碳材料在涂层/薄膜中的应用及其摩擦学性能研究.硕士学位论文,太原理工大学,2015.
40 An M Z. Theory and technology of electroplating, Harbin Institute of Technology Press, China,2004(in Chinese).
安茂忠.电镀理论与技术,哈尔滨工业大学出版社,2004.
41 Kamboj A, Raghupathy Y, Rekha M Y, et al. JOM,2017,69(7),1149.
42 Zhang L, Li N, Xia H, et al. Advanced Engineering Materials,2016,18(10),1716.
43 Kuang D. Study on preparation and properties of graphene/nickel matrix composites. Master's Thesis, Shanghai Jiaotong University, China,2012(in Chinese).
匡达.石墨烯/镍基复合材料的制备和性能研究.硕士学位论文,上海交通大学,2012.
44 Pavithra C L P, Sarada B V, Rajulapati K V, et al. Scientific Reports,2014,4,4049.
45 Ren Z, Meng N, Shehzad K, et al. Nanotechnology,2015,26(6),065706.
46 Fan T X, Liu Y, Yang K M, et al. Acta Metallurgica Sinica,2019,55(1),16(in Chinese).
范同祥,刘悦,杨昆明,等.金属学报,2019,55(1),16.
47 Guo B S, Zhang X M, Cen X, et al. Carbon,2018,139,459.
48 Huang Z X, Zheng Z, Zhao S, et al. Materials & Design,2017,133,570.
49 Ling Z C, Yan C X, Shi Q N, et al. Materials Reports A: Review Papers,2015,29(4),143(in Chinese).
凌自成,闫翠霞,史庆南,等.材料导报:综述篇,2015,29(4),143.
50 Baig Z, Mamat O, Mustapha M. Critical Reviews in Solid State and Materials Sciences,2016,43(1),1.
51 Zhang D D, Zhan Z J. Journal of Alloys & Compounds,2015,658,663.
52 Liu M Y. Study on preparation and mechanism of graphene/metal-based composite coatings. Master's Thesis, Harbin University of Engineering, China,2018(in Chinese).
刘名洋.石墨烯/金属基复合涂层的制备及作用机理研究.硕士学位论文,哈尔滨工程大学,2018.
53 Reza Rezaei. Computational Materials Science,2018,151,181.
54 Li Z, Guo Q, Li Z Q, et al. Nano Letters,2015,15(12),8077.
55 Rashad M, Pan F S, Tang A T, et al. Journal of Composite Materials,2015,49(3),285.
56 Li Z, Fan G L, Tan Z Q, et al. Nanotechnology,2014,25(32),325601.
57 Kim Y, Lee J, Yeom M S, et al. Nature Communications,2013,4,2114.
58 Liu X Y, Wang F C, Wu H A, et al. Applied Physics Letters,2014,104(23),1.
59 Liu Z Y, Xiao B L, Wang W G, et al. Carbon,2012,50(5),1843.
60 Jiang L, Li Z Q, Fan G L, et al. Scripta Materialia,2012,66(6),331.
61 Guo C H. Study on preparation and strengthening mechanism of nano-phase reinforced copper matrix composites. Ph.D. Thesis, Yanshan University, China,2019(in Chinese).
郭长虹.纳米相增强铜基复合材料制备及强化机理研究.博士学位论文,燕山大学,2019.
62 Kelly A, Tyson W R. Journal of the Mechanics & Physics of Solids,1965,13(6),329.
63 Taya M, Arsenault R J. Scripta Metallurgica,1987,21(3),349.
64 Deng P S, Yao C W, Feng K, et al. Surface and Coatings Technology,2018,335,334.
65 Bhaviripudi S, Jia X T, Dresselhaus M S, et al. Nano Letters,2010,10(10),4128.
66 Balandin A A, Ghosh S, Bao W Z, et al. Nano Letters,2008,8(3),902.
67 Zhang Y F, Gao T, Gao Y B, et al. Acs Nano,2011,5(5),4014.
68 Nix F C, Macnair D. Physical Review,1941,60(8),597.
69 Nasch P M, Steinemann S G. Physics & Chemistry of Liquids,1995,29(1),43.
70 Marder, James M, Haws, et al. US patent, US5413644,1995.
71 Fadavi Boostani A, Tahamtan S, Yazdani S, et al. Scripta Materialia,2016,118,65.
72 Miller W S, Humphreys F J. Scripta Metallurgica et Materialia,1991,25(1),33.
73 He G J, Li W Z. Acta Materiae Compositae Sinica,2013,30(2),105.
74 Liu X H, Li J J, Liu E Z, et al. Materials Science & Engineering,2019,748,52.
75 Bao W Z, Miao F, Chen Z, et al. Nature Nanotechnology,2009,4(9),562.
76 Chen X X, Tao J M, Yi J H, et al. Materials Science & Engineering A,2018,718,427.
77 Liu B, Zhou M Y, Ren L B, et al. Materials Science and Technology,2019,27(1),9.
78 Park J G, Keum D H, Lee Y H. Carbon,2015,95,690.
79 Mokdad F, Chen D L, Liu Z Y, et al. Carbon,2016,104,64.
80 Liang B M, Luo M Y, Zhang Z J, et al. Light Industry Science and Technology,2017,33(8),24(in Chinese).
梁倍铭,罗茂源,张正杰,等.轻工科技,2017,33(8),24.
81 Muoz-Morris M A, Garcia Oca C, Morris D G. Acta Materialia,2002,50(11),2825.
82 Li Q Q, Viereckl A, Rottmair C A, et al. Composites Science & Technology,2009,69(7-8),1193.
83 Song Y, Chen Y, Liu W W, et al. Materials & Design,2016,109,256.
84 Zhang Z, Chen D L. Scripta Materialia,2006,54(7),1321.
85 Tjong S C. Materials Science & Engineering R Reports,2013,74(10),281.
86 Wang Y C, Shi J, Deng X Y, et al. In: ASME 2016 International Mechanical Engineering Congress and Exposition. Phoenix, Arizona, USA,2016,pp.1.
87 Schultz B F, Ferguson J B, Rohatgi P K. Materials Science & Engineering A,2011,530,87.
88 Cai Y, Tan M J, Shen G J, et al. Materials Science & Engineering A,2000,282(1-2),232.
89 Li C D, Wang X J, Liu W Q, et al. Materials Science and Engineering: A,2014,597,264.

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