ЭЛЕКТРООСАЖДЕНИЕ КОМПОЗИЦИОННЫХ ПОКРЫТИЙ
Аннотация
Гальванические покрытия на протяжении многих лет привлекают внимание в качестве объекта исследований как с теоретической, так и с практической точек зрения. Относительно новым направлением в гальванотехнике является получение композиционных покрытий, основу которых составляют металлические матрицы и дисперсные фазы разной природы. Введение в электролит для совместного электрохимического осаждения микро-, наночастиц оксидов, карбидов, нитридов, полимеров и др. позволяет регулировать структуру, состав, свойства покрытий, снабжая их новыми характеристиками. Как показал анализ публикаций по этой тематике в Базе данных ВИНИТИ РАН, систематические исследования в этой области осуществляются на протяжении приблизительно двадцати лет и интерес к ним не снижается. Системой запросов из массива опубликованных документов отобраны и обобщены все известные на данный момент комбинации металлическая матрица/дисперсная фаза и сведения об их свойствах (коррозионное поведение, износостойкость, микротвердость, устойчивость к высокотемпературному окислению, жаростойкость, структурные и адгезионные характеристики). Результаты представлены в виде таблиц и снабжены ссылками на оригинальные работы. Проведенный анализ полученной проблемно-ориентированной базы данных показал, что за период 2000-2019 гг. описано не более 15-20% возможных сочетаний, а глубоко изучено и доведено до практического использования еще меньшее количество композиционных покрытий. Представленный материал позволяет в наглядной и удобной для поиска исходной информации форме проводить анализ перспективных направлений исследований. Обзор основан на более чем 400 ссылках на журнальные статьи, исходная база по композиционным гальваническим покрытиям содержит 1650 источников (патенты, доклады, краткие сообщения, депонированные рукописи и др.), которые могут представлять интерес как обширный справочный материал.
Литература
Jelinek T.V. Advances in electroplating. Review of world specialized literature for 2013-2014. Gal'vanotekhnika i obrabotka poverkhnosti. 2015. V. 23. N 2. P. 20-28 (in Russian).
Jelinek T.V. Advances in electroplating. Review of world specialized literature for 2014-2015. Gal'vanotekhnika i obrabotka poverkhnosti. 2016. V. 24. N 2. P. 14-21 (in Russian).
Jelinek T.V. Advances in electroplating. Review of world specialized literature for 2015-2016. Gal'vanotekhnika i obrabotka poverkhnosti. 2017. V. 25. N 2. P. 20-28 (in Russian).
Jelinek T.V. Advances in electroplating. Review of world specialized literature for 2016-2017. Gal'vanotekhnika i obrabotka poverkhnosti. 2018. V. 26. N 1. P. 4-10 (in Russian).
Jelinek T.V. Advances in electroplating. Review of world specialized literature for 2017-2018. Gal'vanotekhnika i obrabotka poverkhnosti. 2019. V. 27. N 2. P. 4-8 (in Russian).
Salakhova R.K., Semenychev V.V. The effectiveness of the use of nanopowders in the production of galvanic coatings. Korroziya: materialy, zashchita. 2015. N 11. P. 36-44 (in Russian).
Zhachkin S.Yu., Penkov N.A., Krasnov A.I., Sidorkin O.A. Improving the wear resistance of the working surfaces of friction pairs of agricultural machines with a galvanic composition based on chromium. Vestn. MichGAU. 2015. N 1. P. 131-136 (in Russian).
Mao X.-G., Ma J., Shen J., Yu Z.-Z. Progress in preparation of corrosion resistant zinc-magnesium alloying coating. Fushi yu fanghu. 2013. V. 34. N 9. P. 761-765.
Verbundwerkstoffe und Werkstoffverbunde. Galvanotechnik. 2011. V. 102. N 6. P. 1322-1324.
Lekka M., Zanella C., Klorikowska A., Bonora. P.L. Scalingup of the electrodeposition process of nano-composite coating for corrosion and wear protection. Electrochim. Acta. 2010. V. 55. N 27. P. 7876-7883.
Sayfullin R.S., Khatsrinov A.I., Vodopyanova S.V., Mingazova G.G., Fomina R.E. Research in the field of creation of composite electrochemical coatings (CEC) with a dispersed phase of micro- and nanoparticles. Vestn. Kazan. Technol. Un-ta. 2009. N 6. P. 80-90, 401 (in Russian).
Tseluykin V.N. Composite electrochemical coatings: preparation, structure, properties. Protection of Metals and Physical Chemistry of Surfaces. 2009. V. 45. N 3. P. 312-326.
Feng Qiuyuan, Li Tingju, Jin Junze. Investigation of the mechanism of electrodeposition of composite coatings and recent advances in this field. Xiyou jinshu cailiao yu gongcheng. 2007. V. 36. N 3. P. 559-564.
Feng Qiu-yuan, Li Ting-ju, Jin Jun-ze. Factors affecting the coprecipitation of particles during electrodeposition of composite coatings. Cailiao baohu. 2006. V. 39. N 5. P. 35-39.
Qi Xin-hua, Wang Hong-juan. Dispersion and stability of particle dispersions in the electrodeposition bath. Cailiao baohu. 2006. V. 39. N 1. P. 31-35.
Brooman Eric W. Compliant electrodeposited and electroless nano-structured and nano-composite coatings to replace chromium coatings. V.Galvanotechnik. 2006. V. 97. N 1. P. 58-66.
Brooman Eric W. Compliant electrodeposited and electroless nano-structured and nano-composite coatings to replace chromium coatings. IV. Galvanotechnik. 2005. V. 96. N 12. P. 2843-2853.
Sayfullin R.S., Vodopyanova S.V., Danilova N.A., Mingazova G.G., Fomina R.E. Composite electrochemical coatings are a development from macro- and micro-dispersed systems to nanodispersed systems. Naukoyem. Tekhnol. 2005. V. 6. N 8-9. P. 92-97 (in Russian).
Sun Wei, Zhang Qin-yi, Ye Wei-ping, Huang Shang-yu. Current status and successes in the development of technology and the study of the mechanism of electrolytic deposition of composite coatings with nanoparticles Cailiao baohu. 2005. V. 38. N 6. P. 41-44.
Gao Long, Liu Jituo, Yan Zepeng, Zhang Yingjiu. Diamond particle content of Cu-diamond composite coating. Jingangshi yu moliaomoju gongcheng. 2017. V. 37. N 4. P. 44-47.
Niu Te, Chen Wei-wei, Cheng Huan-wu, Wang Lu. Grain growth and thermal stability of nanocrystalline Ni-TiO2 composites. Trans. Nonferrous Met. Soc. China. 2017.
V. 27. N 10. P. 2300-2309.
Góral Anna. Nanoscale structural defects in electrode-posited Ni/Al2O3 composite coatings. Surface and Coatings Technology. 2017. V. 319. P. 23-32.
Improving the competitiveness of production in the restoration of parts by galvanic composite coatings. Innovative technologies and equipment of a machine-building com-plex. Innovatsionnyye tekhnologii i oborudovaniye mashinostroit. kompleksa. 2016. N 19. P. 8-11 (in Russian).
He Shijian. Repairing of slightly damaged shaft journal of camshaft used in chemical equipment by plating method. Diandu yu jingshi. 2017. V. 39. N 2. P. 43-46.
Gorelov S.M., Tsupak T.E., Vinokurov E.G., Nevmyatullina K.A., Yarovaya O.V. Preparation and properties of nickel–zirconia nanocomposite coatings. Protection of Metals and Physical Chemistry of Surfaces. 2016. V. 52. N 4. P. 622-626.
Hasannejad H., Shahrabi T., Jafarian M. Synthesis and properties of high corrosion resistant Ni-cerium oxide nano-composite coating. Materials and Corrosion. 2013. V. 64. N 12. P. 1104-1113.
Ling Wen-dan, Zhao Ping-tang, Li Zhi-pan, Zhang Song-qi, Liang Ke. Structure and corrosion resistance of nickel–yttrium oxide composite coating prepared by brush plating. Diandu yu tushi. 2014. V. 33. N 11. P. 460-463.
Belko A.V., Valko N.G. Investigation of the effect of x-ray radiation on the electrodeposition of nickel with SiO2 nanoparticles by the method of a full factorial experiment. PFMT. 2014. N 1. P. 12-15 (in Russian).
Lajevardi S.A., Shahrabi T., Szpunar J.A., Sabour Rouhaghdam A., Sanjabi S. Characterization of the microstructure and texture of functionally graded nickel-Al2O3 nano composite coating produced by pulse deposition. Surface and Coatings Technology. 2013. V. 232. P. 851-859.
Gorelov S.M., Knyazeva A.A., Kudryavtsev V.N., Tsu-pak T.E. Electrodeposition of CEC based on nickel with titanium dioxide. Gal'vanotekhnika i obrabotka poverkhnosti. 2014. V. 22. N 1. P. 24-29 (in Russian).
Wu L.-K., Hu J.-M., Zhang J.-Q., Cao C.-N. A silica co-electrodeposition route to highly active Ni-based film electrodes. J. Mater. Chem. A. 2013. V. 1. N 41. P. 12885-12892.
Aruna S.T., Muniprakash M., William Grips V.K. Effect of titania particles preparation on the properties of Ni-TiO2 electrodeposited composite coatings. J. Appl. Electrochem. 2013. V. 43. N 8. P. 805-815.
Wang Xingxing, Long Weimin, Lei Weining, Liu Wei-qiao, Lü Dengfeng. Features of nickel composite coatings obtained by galvanic method in a supercritical liquid CO2 environment. Xiyou jinshu cailiao yu gongcheng. 2013. V. 42. N 9. P. 1931-1935.
Zhou Xiaowei, Shen Yifu. Corrosion of the Ni-GeO2 nanocrystalline coating in an acidic NaCl solution and its study of EIS. Jinshu xuebao. 2013. V. 49. N 9. P. 1121-1130.
Zhang D.-Y., Xue Y.-J., Li X.-H., Li J.-S. Corrosion resistance of Ni-CeO2 nanocomposite coating prepared by electrodeposition with rotating cathode in an ultrasonic field. Advanced Materials Research. 2011. V. 337. P. 54-58.
Zyablitseva O.V., Zyablitsev V.V., Velikolug A.M. The deposition of composite electrochemical coatings with a given content. dispersed phase. Gal'vanotekhnika i obrabotka poverkhnosti. 2011. V. 19. N 2. P. 36-42 (in Russian).
Hasannejad H., Shahrabi T., Jafarian M., Rouhagh-dam A. Sabour. EIS study of nano crystalline Ni-cerium oxide coating electrodeposition mechanism. J. Alloys Compd. 2011. V. 509. N 5. P. 1924-1930.
Lajevardi S.A., Shahrabi T., Hasannaeimi V. Synthesis and mechanical properties of nickel-titania composite coatings. Materials and Corrosion. 2011. V. 62. N 1. P. 29-34.
Sayfullin R.S., Fomina R.E., Mingazova G.G., Vodopyanova S.V., Grigoryeva I.O., Ksenofontova R.K. The effect of aluminum dioxide nanoparticles on the corrosion resistance of nickel coatings. Vestn. Kazan. gos. tekhnol. un-ta. 2010. N 11. P. 358-362 (in Russian).
ChenWeiwei, GaoWei.Sol-enhanced electroplating of nanostructured Ni-TiO2 composite coatings-The effects of sol concentration on the mechanical and corrosion prop-erties. Electrochim. Acta. 2010. V. 55. N 22. P. 6865-6871.
Peng X., Yan J., Dong Z., Xu C., Wang F. Discontinuous oxidation and erosion-oxidation of a CeO2-dispersion-strengthened chromium coating. Corros. Sci. 2010. V. 52. N 5. P. 1863-1873.
Qzhang W.-F., Zhu D. Preparation of Ni-ZrO2 nano-composite electrodeposits and its corrosion resistance. Fushi Kexue yu Fanghu Jishu. 2006. V. 18. N 5. P. 325-328.
Guo W.-C., Tan J., Yang H.-J. Corrosion resistance of composite coatings prepared by pulse-reverse electroplating. Fushi yu fanghu. 2006. V. 27. N 2. P. 55-57, 62.
Zhu L.-M., Peng X. Microstructural characterization and oxidation performance of a Novel CeO2 - Modified chromizing coating. Fushi Kexue yu Fanghu Jishu. 2005.
V. 17. N 2. P. 63-68.
Yan J., Peng X., Wang F.-H. Oxidation of a nano - CeO2 - dispersed chromizing coating in N2-5%O2-0.1%SO2 atmosphere. Fushi Kexue yu Fanghu Jishu. 2005. V. 17. N 1. P. 43-46. 49.
Xu Jiang, Zhuo Chengzhi, Han Dezhong, Tao Jie, Liu Linlin, Jiang Shuyun. Erosion–corrosion behavior of nano-particle-reinforced Ni matrix composite alloying layer by duplex surface treatment in aqueous slurry environment. Corros. Sci. 2009. V. 51. N 5. P. 1055-1068.
Aruna S.T., Grips William V.K., Rajam K.S. Ni-based electrodeposited composite coating exhibiting improved microhardness, corrosion and wear resistance properties.
J. Alloys Compd. 2009. V. 468. N 1-2. P. 546-552.
Thiemig Denny, Bund Andreas, Talbot Jan B. Untersuchungen zur elektrochemischen Herstellung und zu den Struktur-Eigenschafts-beziehungen von Nickel-Disper-sionsschichten. IV. Galvanotechnik. 2008. V. 99. N 10. P. 2397-2410.
Wang Chao, Zhong Yunbo, Ren Weili, Lei Zuosheng, Ren Zhongming, Jia Jing, Jiang Airong. Effects of parallel magnetic field on electrocodeposition behavior of Ni/nanoparticle composite electroplating. Applied Surface Science. 2008. V. 254. N 18. P. 5649-5654.
Wielage Bernhard, Lampke Thomas, Zacher Manuela, Dietrich Dagmar. Electroplated nickel composites with micron- to nano-sized particles. Key Eng. Mater. 2008.
N 384. P. 283-309.
Feng Qiuyuan, Li Tingju, Teng Haitao, Zhang Xiaoli, Zhang Yu, Liu Changsheng, Jin Junze. Investigation on the corrosion and oxidation resistance of Ni–Al2O3 nano-composite coatings prepared by sediment co-deposition. Surface and Coat. Technol. 2008. V. 202. N 17. P. 4137-4144.
Abdel Aal A. Hard and corrosion resistant nanocomposite coating for Al alloy. Mater. Sci. Eng. A. 2008. V. 474. N 1-2. P. 181-187.
Zhang H., Song Y.W., Song Z.L. Electrodeposited nickel/alumina composite coating on NdFeB permanent magnets. Materials and Corrosion. 2008. V. 59. N 4. P. 324-328.
Zhang H., Song Y.W., Song Z.L. Electrodeposited Ni/Al2O3 composite coating on NdFeB permanent magnets. Key Eng. Mater. 2008. N 373-374. P. 232-235.
Feng Qiuyuan, Li Tingju, Yue Hongyun, Bai Fudong, Qi Kai, Jin Junze. Sediment Co-deposition of nanostructured Ni-Al2O3 composite coatings. Key Eng. Mater. 2008. N 373-374. P. 244-247.
Zhou Yue-bo, Ding Yuan-zhu. Oxidation resustance of codeposited Ni-SiC nanocomposite coating. Trans. Nonferrous Metals Soc. China. 2007. V. 17. N 5. P. 925-928.
Aruna S.T., Grips V.K. William, Selvi Ezhil V., Rajam K.S. Studies on electrodeposited nickel-yttria doped ceria composite coatings. J. Appl. Electrochem. 2007. V. 37. N 9. P. 991-1000.
Wu Qing-li, Wu Meng-hua, Huang shu-tao, Li Zhi, Xia Fa-feng, Zhao Na. Investigation of the corrosion resistance of Ni/nano Al2O3-composite coatings prepared by ultrasonic electrodeposition. Biaomian jishu. 2007. V. 36. N 1. P. 1-4.
Tan Jun, Guo Wencai, Xu Binshi, Yang Hongjun. Preparation of Ni/Nano-SiO2 composite coatings by pulsed electrolytic (with a change in current direction) deposition with a movable contact. Zhongguo fushi yu fanghu xuebao. 2006. V. 26. N 4. P. 193-196.
Li Zhi-lin, Liu Jian-jun, Guan Hai-ying. Fabrication and properties of electrodeposited Ni/nano-TiO2 composite coatings. Cailiao baohu. 2006. V. 39. N 7. P. 20-22.
Zhang Wen-feng, Zhu Di. Study of oxidation resistance of electrodeposited nanocomposite Ni-ZrO2 coating. Di-andu yu tushi. 2006. V. 25. N 5. P. 1-3.
Kollia C., Patta C., Vassiliou. P., Kasselouri V. Ni/TiO2 composite electrocoatings. Rev. Met. 2005. P. 227-231.
Stepanova L.I., Bodrykh T.I., Purovskaya O.G., Sviridova T.V. Functional nanostructured film coatings containing W, Mo and / or their oxides. Nanotekhnika. 2005. N 2. P. 54-59 (in Russian).
Li Zhong-xue, Liu Jun. Technology for the preparation of composite coatings Ni-Al2O3 and their properties. Cailiao baohu. 2006. V. 39. N 1. P. 25-27.
Szczygieł Bogdan, Kołodziej Małgorzata. Composite Ni/Al2O3 coatings and their corrosion resistance. Electro-chim. Acta. 2005. V. 50. N 20. P. 4188-4195.
Li J., Sun Y., Sun X., Qiao J. Mechanical and corrosionresistance performance of electrodeposited titania-nickel nanocomposite coatings. Surface Coat. Technol. 2005. V. 192. N 2-3. P. 331-335.
Steinhäuser S., Lampke T., Wielage B., Lies C. Microstructure of different Ni-coatings influencing the corrosion behaviour. Inž. Powierzchni. 2005. N 2A. P. 109-116.
Nanopartikel im Einsatz gegen Korrosion. Galvanotechnik. 2005. V. 96. N 3. P. 681.
Sang Fu-ming, Cheng Dan-hong. Investigation of the corrosion resistance of composite coatings Ni-nano SiO2. Huaxue gongye yu gongcheng jishu. 2004. V. 25. N 1. P. 6-8, 9, i.
Erler F., Jakob C., Romanus H., Spiess L., Wielage B., Lampke T., Steinhauser S. Interface behaviour in nickel composite coatings with nano-particles of oxidic ceramic. Electrochim. Acta. 2003. V. 48. N 20-22. P. 3063-3070.
Medyalene V., Gladkovas M., Matulionis E. Corrosion of nickel coatings in neutral and sour salt fog. Zashchita Met. 2001.V. 37. N 4. P. 374-379 (in Russian).
Steinhäuser S. Dispersionsschichten mit nanoskaligen Teilchen-Grundlagen und erste. Ergebnisse. IV. Galvanotechnik. 2001. V. 92. N 4. P. 940-956.
Elektrolytisch abgeschiedene Nickel/Zirkondioxid-Dispersionschichten. Galvanotechnik. 2001. V. 92. N 1. P. 133.
Peng X., Li T., Wu W. Effect of La2O3 particles on the oxidation of electrodeposited nickel films. Oxid. Metals. 1999. V. 51. N 3-4. P. 291-315.
Balakai V.I., Murzenko K.V., Starunov A.V., Arzumanova A.V., Balakay I.V. Properties of the composite electrolytic coating nickel - cobalt - silicon oxide - fluoroplastic. Perspektivnyye Materialy. 2017. N 12. P. 51-58 (in Russian).
Kamnerdkhag Parunyoo, Free Michael L., Shah Akeel A., Rodchanarowan Aphichart. The effects of duty cy-cles on pulsed current electrodeposition of Zn–Ni–Al2O3 composite on steel substrate: Microstructures, hardness and corrosion resistance. Internat. J. Hydrogen Energy. 2017.
V. 42. N 32. P. 20783-20790.
Balakai V.I., Murzenko K.V., Arzumanova A.V., Bala-kay I.V. Properties of the composite electrolytic coating nickel - cobalt - alumina - fluoroplastic. Perspektivnyye Materialy. 2017. N 7. P. 62-70 (in Russian).
Liu Meixia, Huang Zhu, Li Tianbai, Ren Xingrun, Zhang Xuehui, Chen Hao. Effect of Al2O3 concentration on properties of Ni–W–Al2O3 composite coatings. Youse jinshu kexue yu gongcheng. 2016. V. 7. N 4. P. 55-60.
Chira Mihail, Vermesan Horatiu, Grunwald Ernest, Borodi Gheorghe. Tribological behavior of Zn-Ni layers electrodeposited on different substrates by various meth-ods. Galvanotechnik. 2016. V. 107. N 9. P. 1790-1792, 1795-1806.
Zhang Pei, Sun Wan-chang, Tian Miao-miao, Wang Ying, Dong Chu-xu. Influences of ZrO2 content and duty ratio on microstructure and corrosion resistance of Ni–Co–ZrO2 composite coating. Xiyou jinshu yu yingzhi hejin. 2015. V. 43. N 6. P. 33-38.
Rao Nagaraj N. Bericht aus Indien. Galvanotechnik. 2014. V. 105. N 11. P. 2427-2430.
Chandrappa K.G., Venkatesha T.V. Generation of nanostructured CuO by electrochemical method and its Zn-Ni-CuO composite thin films for corrosion protection. Materials and Corrosion. 2013. V. 64. N 9. P. 831-839.
Blejan D., Muresan L.M. Corrosion behavior of Zn-Ni-Al2O3 nanocomposite coatings obtained by electrodeposition from alkaline electrolytes. Materials and Corrosion. 2013. V. 64. N 5. P. 433-438.
Murzenko K.V., Nabieva D.B., Balakai V.I. Wear resistance of the composite electrolytic coating nickel-cobaltalumina deposited from a chloride electrolyte. Nanotekhnol.: nauka. i pr-vo. 2014. N 2. P. 77-79 (in Russian).
Li Changjin, Wang Yanmin, Pan Zhidong.Wear resistance enhancement of electroless nanocomposite coatings via incorporation of alumina nanoparticles prepared by milling. Materials Design. 2013. V. 47. P. 443-448.
Korobova I.V. Structure and properties of composite electrolytic coatings based on nickel-cobalt alloy. Vopr. khimii i khim. Tekhnol. 2011. N 4. P. 261-263, 342, 356 (in Russian).
Peng Chengzhang, Zhu Lingling. Influence of heat treatment on the microstructure and corrosion resistance of Ni–P/nano-Al2O3 composite coatings. Zhongguo fushi yu fanghu xuebao. 2011. V. 31. N 3. P. 179-183.
Gomes A., Almeida I., Frade T., Tavares A.C. Zn-TiO2 and ZnNi-TiO2 nanocomposite coatings: Corrosion behaviour. Materials Science Forum. 2010. V. 636. P. 1079-1083.
Ranganatha S., Venkatesha T.V., Vathsala K. Devel-opment of electroless Ni-Zn-P/nano-TiO2 composite coatings and their properties. Applied Surface Science. 2010. V. 256. N 24. P. 7377-7383.
Wang Shao-hua, Wang Jun-li, Xu Rui-dong, Zhang Yu-zhi. Effect of the duration of double pulses on the elec-trodeposition of a nanocomposite Ni–W–P/CeO2–SiO2. Cailiao baohu. 2010. V. 43. N 3. P. 34-37.
Yang Fang-Zu, Huang Ling, Xu Shu-Kai, Zhou Shao-Min. Preparation, heat treatment and corrosion behavior of an amorphous composite coating Ni-W/ZrO2. Wuli huaxue xuebao. 2009. V. 25. N 5. P. 864-868.
Wang J.-C., Cheng X.-D., Li D.-H., Yang X.-L. Ni-W-ZrO2 nanometer electrodeposition process. Fushi yu fanghu. 2005. V. 26. N 8. P. 338-340, 354.
Wang Ya-ling, Chen Fan-cai, Zhang Xiao-hua, Wen Jia-xin, Hu xiao-dong. Investigation of the process of obtaining a composite coating of nickeliron-titanium oxide. Diandu yu tushi. 2008. V. 27. N 5. P. 6-8.
Yao Z.-K., Ma J., Li D.-Y., Liu H., Lu X.-L. Anticorrosion properties of amorphous Ni-P-Cr-TiO2 composite deposit in seawater and in microbial environment. Fushi Kexue yu Fanghu Jishu. 2006. V. 18. N 6. P. 391-395.
Ma J., Shi Y., Di J., Yao Z., Liu H. Effect of TiO2 nanoparticles on anticorrosion property in amorphous Ni-P-Cr composite coating in artificial seawater and microbial environment. Materials and Corrosion. 2009. V. 60. N 4. P. 274-479.
Salam Hamdy Abdel, Shoeib M.A., Hady H., Abdel Salam O.F. Electroless deposition of ternary Ni-P alloy coatings containing tungsten or nano-scattered alumina composite on steel. J. Appl. Electrochem. 2008. V. 38. N 3. P. 385-394.
Srivastava Meenu, Grips V.K. William, Rajam K.S. Structure and properties ofelectrodeposited Ni-Co-YZA composite coatings. J. Appl. Electrochem. 2008. V. 38. N 5. P. 669-677.
Shu Xia, Li Yun, Wu Yucheng, Huang Xinmin, Zheng Yuchun. Electrodeposition preparation and corrosion resistance of Ni-W-ZrO2 composite coatings. Fuhe cailiao xuebao. 2007. V. 24. N 6. P. 116-120.
Yao Yingwu. Effect of SiO2 nano-particulates on corrosion behaviour of Ni-W/SiO2 nanocomposite coatings. Anti-Corros. Meth. and Mater. 2007. V. 54. N 6. P. 336-340.
Liu Haifeng, Chen Weixing. Cyclic oxidation behaviour of electrodeposited Ni3Al-CeO2 base coatings at 1050 °C. Corros. Sci. 2007. V. 49. N 9. P. 3453-3478.
Liu Haifeng, Chen Weixing. Coke formation and metal dusting of electroplated Ni3Al-CeO2-based coatings in CO-H2-H2O. Corros. Sci. 2007. V. 49. N 11. P. 4134-4153.
Popczyk Magdalena, Kubisztal Julian, Budniok Antoni. Structure and electrochemical characterization of electro-lytic Ni+Mo+Si composite coatings in an alkaline solution. Electrochim. Acta. 2006. V. 51. N 27. P. 6140-6144.
Liu Haifeng, Chen Weixing. Cyclic oxidation behavior of electrodeposited Ni3Al-CeO2 base coatings at 850 °C. Oxid. Metals. 2005. V. 64. N 5-6. P. 331-354.
Hino M., Hiramatsu M., Murakami K., Saijo A., Konadani T. Electroplated Zn-Ni-SiO2 composite coatings treated with a silane coupling agent to replace chromating. Acta Met. Sin. 2005. V. 18. N 3. P. 416-422.
Yang Fang-zu, Huang Bing-qiang, Huang Ling, Xu Shu-kai, Zhou Shao-min. Corrosion-electrochemical behavior of coatings based on nickel alloys in hydrochloric acid. Diandu yu jingshi. 2005. V. 27. N 4. P. 1-4.
Hino Makoto, Hiramatsu Minoru. Silane protection for zinc-nickel-silica composite coating applied from sulfate solutions. Ryusan to kogyo. 2005. V. 58. N 7. P. 120-126.
Wang Jun-li, Xu Rui-dong, Long Jin-ming, Guo Zhong-cheng. Properties of pulsed electrodeposition of composite coatings RE-Ni-W-B-polytetrafluoroethylene-Al2O3. Cailiao baohu. 2005. V. 38. N 3. P. 18-20.
Yang Fang-Zu, Ma Zhao-Hai, Huang Ling, Xu Shu-Kai, Zhou Shao-Min. Electrodeposition, structure and properties of amorphous composite coatings Ni-W-B/ZrO2. Wuli huaxue xuebao. 2004. V. 20. N 12. P. 1411-1416.
Zhao Lu-lu, Jin Hong, Jin Yan, Li Mengke. Study of Ni-P-nano-SiO2 composite coatings obtained by electrolysis and their corrosion resistance. Liaoning shifan daxue xuebao. Ziran kexue ban. 2004. V. 27. N 3. P. 288-291.
Wu Gang, Li Ning, Zhou Derui, Mitsuo Kurachi. Microstructure and properties of Co-Ni-Al2O3 composite coatings at high temperature. Fuhe cailiao xuebao. 2004. V. 21. N 2. P. 8-13.
Popczyk Magdalena, Budniok Antoni, Cybo Jerzy, Sluzalek Grzegorz. Struktura i wlasciwosci warstw kompozytowych na osnowie amorficznego niklu modyfikowanych wolframem lub tlenkiem niklu. Kompozyty. 2002. V. 2. N 3. P. 68-72.
Starosta R., Chabowski R. Badania potencjodynamiczne elektrolitycznych powłok dyspersyjnych. Ochr. koroz. 2002. V. 45. N 11A. P. 209-213.
Jiang Shi-hang, Zhang Jing-yao, Liu Jian-hong. Electroplating a composite coating Ni-P/Al2O3. Jinshu rechuli. 2002. V. 27. N 11. P. 20-22.
Liqun Z., Qunpeng Z., Jianhua L. Amorphous nickel-tungsten-boron composite electrodeposits with zirconium oxide particles. Metal Finish. 2001. V. 99. N 7. P. 28-30.
Wang Hongyan, Zhou Sumin. RES and OEC studies of the Ni-P-SiO2 composite coating. Guangpuxue yu guangpu fenxi. 2000. V. 20. N 4. P. 553-555.
Maharana H.S., Basu A. Effects of Different Surfactants on Structural, Tribological and Electrical Properties of Pulsed Electro-Codeposited Cu-ZrO2 Composite Coatings. J. Mater. Eng. Perform. 2018. V. 27. N 4. P. 1854-1865.
Grześ J. Intermediate layers deposited by the brush plating method. Welding International. 2015. V. 29. N 12. P. 951-955.
Veeramani V., Dinesh B., Chen S.-M., Saraswathi R. Electrochemical synthesis of Au–MnO2 on electrophoretically prepared graphene nanocomposite for high performance supercapacitor and biosensor applications. J. Mater. Chem. A. 2016. V. 4. N 9. P. 3304-3315.
Harthoj Anders, Holt Tobias, Moller Per. Oxidation behaviour and electrical properties of cobalt/cerium oxide composite coatings for solid oxide fuel cell interconnects.
J. Power Sources. 2015. V. 281. P. 227-237.
Danilov F.I., Protsenko V.S., Vasilieva E.A., Smenova I.V. Kinetic laws of deposition of composite Fe–ZrO2 electroplated coatings (+ 3% Y2O3). Vopr. khimii i khim. tekhnologii. 2014. N 1. P. 144-148, 182, 191 (in Russian).
Lee C., Jeong S, Myung N., Rajeshwar K. Preparation of Au–Bi2O3 nanocomposite by anodic electrodeposition combined with galvanic replacement. J. Electrochem. Soc. 2014. V. 161. N 10. P. D499-D503.
Nakano Hiroaki, Oue Satoshi, Annoura Yasunori, Na-gai Takaaki, Oho Naoto, Fukushima Hisaaki. Electrodeposition of Zn–V oxide composite from strong agitated solution without dispersed particles. Feramu. 2014. V. 19. N 3. P. 376-382.
Basheer R., Ganga G., Chandran R.K., Nair G.M., Nair M.B., Shibli S.M. Effect of W-TiO2 composite to control microbiologically influenced corrosion on galvanized steel. Appl. Microbiol. Biotechnol. 2013. V. 97. N 12. P. 5615-5625. DOI: 10.1007/s00253-012-4389-1.
Nemes Patrick Ioan, Cotolan Nicoleta, Muresan Liana Maria. Corrosion behaviour of composite coatings obtained by electrolytic codeposition of zinc with nanoparticles of CeO2ZrO2 binary oxides. Studia Universitatis Babes-Bolyai. Ser. 2013. V. 58. N 1. P. 81-91.
Bozzini B., Tondo E., Raffa. P., Boniardi M. Electrodeposition of Y2O3–Au composite coatings for SOFC interconnects: In situ monitoring of film growth by surface enhanced Raman spectroscopy. Transact. Institute Metal Finish. 2012. V. 90. N 1. P. 30-37.
Kumar M.K. P., Venkatesha T.V., Pavithra M.K., Shetty A.N. A study on corrosion behavior of electrodeposited Zn-rutile TiO2 composite coatings. Synth. Reactiv. Inorg., Metal-Organic, Nano-Metal Chem.2012. V. 42. N 10. P. 1426-1434.
Velichenko A.B., Knysh V.A., Dmitrikova L.V., Deville D. Composite materials based on lead dioxide: production, physicochemical properties and electrocatalytic activity. Vopr. khimii i khim. tekhnologii. 2011. N 4. Pt. 1. P. 110-112, 334, 349 (in Russian).
Vorobyova T.N., Nasonova D.I. The deposition on aluminum of coatings from pyrophosphate electrolyte copper plating containing nanoparticles of tin dioxide. Gal'vanotekhnika i obrabotka poverkhnosti. 2012. V. 20. N 2. P. 22-31 (in Russian).
Vathsala Kanagalasara, Venkatesha Thimmappa Venkatarangaiah. Zn-ZrO2 nanocomposite coatings: Elecrodeposition and evaluation of corrosion resistance. Applied Surface Science. 2011. V. 257. N 21. P. 8929-8936.
Yang Sen. Influence of Al2O3 content on the quality of Fe coatings obtained from a low-temperature bath for Fe deposition. Cailiao baohu. 2010. V. 43. N 8. P. 63-64.
Pop A.V., Bulea C., David B., Ciomos Dorina, Muresan Liana. Effect of TiO2 nanoparticles on structure and morphology of Zn anticorrosive coatings. Stud. Un-tis Babeş-Bolyai. Ser. 2009. V. 54. N 2. P. 81-88.
Shibli S.M.A., Francis Chacko, Divya C. Al2O3–ZrO2 mixed oxide composite incorporated aluminium rich zinc coatings for high wear resistance. Corros. Sci. 2010. V. 52. N 2. P. 518-525.
Liu De-li, Li Ning, Cheng Jin-ning, Zhou Zi-heng. Com-posite Zn/nano-SiO2 coating obtained by electrodeposition with high speed stirring. Diandu yu jingshi. 2009. V. 31. N 5. P. 13-17.
Zamblau I., Varvara S., Bulea C., Muresan L.M. Corrosion behavior of composite coatings obtained by elec-trolytic codeposition of copper with Al2O3 nanoparticles. Chem. Biochem. Eng. Quart. 2009. V. 23. N 1. P. 43-52, 122.
Salakhova R.K. Chrome plating in an electrolyte containing trivalent chromium salts and nanopowders as an alter-native to chromium plating from standard electrolytes. Izv. Samar. nauch. centra RAN. 2008. P. 77-82.
Surviliene S., Lisowska-Oleksiak A., Češuniene A. Ef-fect of ZrO2 on corrosion behaviour of chromium coat-ings. Corros. Sci. 2008. V. 50. N 2. P. 338-344.
Romankiewicz K., Bohnet J., Metzner M., Käszmann H. Chromdispersionsabscheidung - Veränderung der Schichtgeigenschaften durch nanoskalige Feststoffe. IV. Galvanotechnik. 2007. V. 98. N 12. P. 2906-2919.
Tyurikov E.V. Properties of chromium coatings obtained in electrolytes containing aluminum oxide nanopowder. Korroziya: mater., zashchita. 2007. N 11. P. 33-37 (in Russian).
Lubnin E.N., Polyakov N.A., Polukarov Yu.M. Electrodeposition of chromium from sulfate-oxalate solutions containing nanoparticles of aluminum oxide and silicon carbide. Zashchita met. 2007. V. 43. N 2. P. 199-206 (in Russian).
Guzun M.V., Bobanova J.I., Vida-Simiti Ioan, Zhumate Nicolae. The structure, physical, mechanical and operational properties of composite coatings based on iron and its alloys. Elektron. obrab. mater. 2006. N 5. P. 20-27 (in Russian).
Vinokurov E.G., Arsenkin A.M., Grigorovich K.V., Bondar V.V. Electrodeposition and physico-mechanical properties of chromium coatings modified with disperse particles. Protection of Metals. 2006. V. 42. N 3. P. 290-294.
Plieth W., Wunsche F., Azizi M., Schneider W., DeVogelaere M., Michelsen-Mohammadein U. Dispersoins-schichten - Mechanismen und Moglichkeiten technischer Nutzung. Galvanotechnik. 2005. V. 96. N 6. P. 1328-1334.
Ekilik G.N., Chernyavina V.V. Corrosive behavior of a metal oxide composite coating in acidic environments. Technol. met. 2005. N 1. P. 20-22 (in Russian).
Zhu L., Peng X., Yan J., Wang F. Oxidation of a novel chromium coating with CeO2 dispersions. Oxid. Metals. 2004. V. 62. N 5-6. P. 411-426.
Ekilik G.N., Chernyavina V.V. Corrosive behavior of a metal oxide composite coating in acidic environments. Korroziya: Mater., Zashchita. 2004. N 11. P. 20-22.
Luo Xinyi, He Jianping, Li Shunlin.CeO2/Zn nanocomposite coating by electrodeposition. Trans. Nanjing Univ. Aeron. and Astron. 2002. V. 19. N 2. P. 161-165.
Sayfullin R.S., Fomina R.E., Mingazova G.G., Khaidarov R.A. Electrodeposition of copper coatings from vanadate and molybdate-containing electrolytes with suspended titanium dioxide. Zashchita Met. 2002.V. 38. N 5. P. 530-533 (in Russian).
Azizi M., Schneider W., Plieth W. Zink-Dispersionsschichten - eine mogliche Alternative zu Zinklegierungen. Galvanotechnik. 2002. V. 93. N 3. P. 656-662.
Benea Lidia. Comparative corrosion studies of composite coating by impedance spectroscopy method. Rev. Roum. Chim. 2000. V. 45. N 3. P. 255-261.
Abdullin I.A. Modification of the properties of composite electrochemical coatings with a matrix of iron. Elektron. obrab. mater. 2000. N 6. P. 23-26, 79 (in Russian).
Fontenay Frank, Andersen Lasse B., Møller Per. Electroplating and characterisation of zinc composite coatings. IV. Galvanotechnik. 2001. V. 92. N 4. P. 928-939.
Abdullin I.A. The structure and compositions of composite electrochemical coatings with a matrix of lead obtained in constant and periodic current modes. Elektron. obrab. mater. 2001. N 1. P. 9-13, 88 (in Russian).
Bobanova Zh.I., Michukova N.Yu., Sidelnikova S.P. Electrodeposition of iron alloys and composite coatings based on them. Gal'vanotekhnika Obrabotka Poverkhnosti. 2000. V. 8. N 2. P. 117-24 (in Russian).
GuoYan-qing, SongRen-guo, ChenLiang, GeYun-jie, WangChao, SongRuo-xi. Effect of nanoscale alumina additive on microstructure as well as corrosion resistance and wear resistance of electroplated copper- tin alloy coatings. Cailiao baohu. 2015. V. 48. N 2. P. 01-04.
Sarma Biplab, Smith York R., Mohanty Swomitra K., Misra Mano. Electrochemical deposition of CdO on anodized TiO2 nanotube arrays for enhanced photoelectrochemical properties. Mater. Lett. 2012. V. 85. P. 33-36.
Revenko V.G., Kozlova T.V., Astakhov G.A., Cherno-va G.P., Bogdashkina N.L. Corrosive and electrochemical behavior of composite electrolytic coatings based on iron. Zashchita met. 2003. V. 39. N 1. P. 84-87 (in Russian).
Dan Yuanyuan, Lu Haiyan, Liu Xiaolei, Lin Haibo, Zhao Jingzhe. Ti/PbO2+nano-Co3O4 composite electrode material for electrocatalysis of O2 evolution in alkaline solution. Internat. J. Hydrogen Energy. 2011. V. 36. N 3. P. 1949-1954.
Huang Lin-yuan, Li Da-guang, He Xiang-zhu, Fu Weiqin, Zhao Yu. Technology of electrodeposition of a composite coating Cr–Fe–ZrO2. Cailiao baohu. 2010. V. 43.
N 10. P. 42-45.
Bulea C.C., Mate A., Grünwald E., Vermesan H. Cink-kobalt-krómháromkomponensü ötvözetegyüttesleválaszt-ásananoméretü szilícium-dioxiddal. Korróz. figy. 2010. V. 50. N 1. P. 11-15, 2.
Fan Yun-Ying, Zhang Ying-Jie, Dong Peng. Preparation and property of electrodeposited Zn-Fe-SiO2 composite coating. Key Eng. Mater. 2008. N 373-374. P. 212-215.
Reshetov V.A., Frolova O.V., Romadenkina S.B., Niko-laychuk A.N. Obtaining composite protective coatings on aluminum and its alloys by reverse galvanostatic method. Elektrokhim. Energ. 2007.V. 7. N 4. P. 219-221 (in Russian).
Ma Xu, Yao Su-Wei, Zhang Wei-Guo, Wang Hong-Zhi. Structure and corrosion of electrodeposited nanocomposite coatings Fe-W-ZrO2. Wuli huaxue xuebao. 2007. V. 23. N 10. P. 1617-1621.
Fan Yunying, Zhang Yingjie, Chen Zhen, Dong Peng, Luo Shaolin. Investigation of the properties of Zn-Fe-SiO2 composite coatings. Zhongguo fushi yu fanghu xuebao. 2005. V. 25. N 5. P. 317-320.
Abdel Hamid. Z. Thermodynamic parameters of electro-deposition of Zn-Co-TiO2 composite coatings. Anti-Corros. Meth. and Mater. 2001. V. 48. N 4. P. 235-240.
Shu Yu-de, Deng Zhao-yang, Xie Qin. Study of the deposition of the composite coating (Zn-Co)-TiO2. Diandu yu jingshi. 2000. V. 22. N 6. P. 12-16.
Yar-Mukhamedova G.Sh. Modified composite chromium-based electrolytic coatings. Fiz.-khim. mekh. mater. 1999. V. 35. N 4. P. 135-136 (in Russian).
Xu Yunfei. Investigation on reparation of slight-damaged outer surface of alloy steel guide sleeve. Diandu yu jingshi. 2017. V. 39. N 9. P. 33-37.
Wang Hongxing, Mao Xiangyang. Effect of attapulgite added in plating bath on the properties of Ni/TiC nano-composite coatings. J. Wuhan Univ. Technol. 2017. V. 32. N 2. P. 250-255.
Ji Wen-zhe, Wang Shou-zhong. Preparation and tribological property of Ni/nano – SiC composite coatings. Cailiao baohu. 2016. V. 49. N 2. P. 10-13.
Galevsky G.V., Rudneva V.V., Garbuzova A.K. Elec-trodeposition, structure and properties of the composite nickel – titanium carbide coating. Nauch.-tekhnich. vedomosti SPbGTU. 2015. N 1. P. 154-164 (in Russian).
Mohajeri S., Dolati A., Rezagholibeiki S. Electrodeposition of Ni/WC nano composite in sulfate solution. Mater. Chem. Phys. 2011. V. 129. N 3. P. 746-750.
Wang. P., Cheng Y., Zhang Z. The influence of the method of pretreatment of silicon carbide nanoparticles on the properties of electrodeposited Ni– SiC nanocomposite coatings. Cailiao baohu. 2010. V. 43. N 11. P. 23-25.
Amadeh A., Rahimi A., Farshchian B., Moradi H. Corrosion behavior of pulse electrodeposited nanostructure Ni-SiC composite coatings. J. Nanosci. Nanotechnol. 2010. V. 10. N 8. P. 5383-5388.
Wu Jun-sheng, Li Xiao-gang, Kong Ming, Dong Chao-fang. The effect of SiC particle size on the wear and corrosion resistance of electrodeposited Ni-SiC composite coatings. Zhongguo youse jinshu xuebao. 2010. V. 20. N 1. P. 125-131.
Oh T.-S., Lee J.-H., Byun J.-Y., Oh T.-S. Effects of the additives and current density on the electrodeposition behavior and mechanical properties of the Ni-SiC composite coatings. Key Eng. Mater. 2007. N 345-346. P. 1533-1536.
Su L.-M., Yu R.-L., Wu Y.-D., Li J., Wang C.-L., Xue W.-Z. Composite coating technology and its application to rotary engine. Fushi yu fanghu. 2005. V. 26. N 2. P. 67-68, 71.
Wu H., Li X.-S., Yan C.-W., Tie J. Preperation and wear performance of electrodeposited Ni - SiC composite coat-ings with nano- sized SIC addition. Fushi Kexue yu Fanghu Jishu. 2005. V. 17. N 6. P. 399-401.
Wang L.-Q., Wu H., Tie J., Van C.-W. Preparation technology and properties of electrodeposited Ni/NANO SiC composite coatings. Fushi Kexue yu Fanghu Jishu. 2005. V. 17. N 4. P. 230-233.
Tribocorrosion behaviour of Ni–SiC nano-structured composite coatings obtained by electrodeposition. Inter-nat. J. Sci. Technol. Frict. Lubricat. Wear. 2009. V. 266. N 3-4. P. 398-405.
Li Xue-song, Wu Hua, Yang You, Jiang Zhong-hao. Microstructure and properties of nanostructured Ni-NiC composite coatings obtained by cathodic electrodeposition on a magnesium alloy MV8. Zhongguo youse jinshu xuebao. 2008. V. 18. N 7. P. 1261-1267.
Vaezi M.R., Sadrnezhaad S.K., Nikzad L. Electrodepo-sition of Ni–SiC nano-composite coatings and evaluation of wear and corrosion resistance and electroplating characteristics. Internat. J. Colloid. Surf. A. 2008. V. 315. N 1-3. P. 176-182.
Medelienė V. The influence of B4C and SiC additions on the morphological, physical, chemical and corrosion properties of Ni coatings. Surface and Coat. Technol. 2002. V. 154. N 1. P. 104-111.
Hu F., Chan K.C., Song S.Z., Yang X.J. Enhancement of corrosion resistance of electrocodeposited Ni-SiC composites by magnetic field. J. Solid State Electrochem. 2007. V. 11.
N 6. P. 745-750.
Rudneva V.V. Development of the theory and nanotech-nology of electrodeposition of composite coatings. Vestn. Ros. akad. yestestv. nauk. 2006.V. 6. N 3. P. 59-64 (in Russian).
Benea Lidia, Bonora Pier Luigi, Borello Alberto, Martelli Stefano. Wear corrosion properties of nano-structured SiC-nickel composite coatings obtained by electroplating. Internat. J. Sci. Technol. Frict. Lubricat. Wear. 2001. V. 249. N 10-11. P. 995-1003.
Lekka Maria, Kouloumbi Niki, Gajo Mauro, Bonora Pier Luigi. Corrosion and wear resistant electrodeposited composite coatings. Electrochim. acta. 2005. V. 50. N 23. P. 4551-4556.
Garcia I., Conde A., Langelaan G., Fransaer J., Celis J.P. Improved corrosion resistance through microstructural modifications induced by codepositing SiC-particles with electrolytic nickel. Corros. Sci. 2003. V. 45. N 6. P. 1173-1189.
Ageenko N.S., Polyakov N.A., Kuznetsov D.A. Electrodeposition of composite nickel coatings. Uspekhi v khimii i khim. tekhnol. 2002. V. 16. N 6. P. 92-93 (in Russian).
Socha R.P., Laajalehto K., Nowak. P. Oxidation of the silicon carbide surface in Watts' plating bath. Surf. Interface Anal. 2002. V. 34. N 1. P. 413-417.
Benea L., Bonora. P.L., Borello A., Martelli S. Effect of SiC size dimensions on the corrosion wear resistance of the electrodeposited composite coating. Materials and Corrosion. 2002. V. 53. N 1. P. 23-29.
Petrova Maria, Küpper Michael, Löwe Holger. Galvanische Nickeldispersionsschichten mit Hartstoff-Nano-partikeln für mikrotechnische Anwendungen. VII. Galvanotechnik. 2001. V. 92. N 5. P. 1366-1371.
Wu Ziyi, Zhang Jinyong, Shi Taojie, Zhang Fan, Lei Liwen, Xiao Han, Fu Zhengyi. Fabrication of laminated TiB2–B4C/Cu–Ni composites by electroplating and spark plasma sintering. J. Mater. Sci. Technol. 2017. V. 33. N 10. P. 1172-1176.
Li Shenhou, Guo Zhixing, Xiong Ji, Lei Yong, Li Yuxi, Tang Jun, Liu Junbo, Ye Junliu. Corrosion behavior of HVOF sprayed hard face coatings in alkaline-sulfide solution. Appl. Surface Sci. 2017. V. 416. P. 69-77.
Semenychev V.V., Salakhova R.K. Device for evaluating the properties of coatings. Factory laboratory. Diagnostika materialov. 2017. V. 83. N 2. P. 60-65 (in Russian).
Huang Zhu, Liu Meixia, Li Tianbai, Zhang Xuehui, Chen Hao. Friction and wear properties of electro-deposited Ni–W–WC composite coatings. Youse jinshu kexue yu gongcheng. 2016. V. 7. N 3. P. 66-70.
Wu Tao, Liu Gang, Li Suo-zhi, Pan Bing-suo. Preparation and performance of Ni–Co–SiC composite coating on diamond. Cailiao baohu. 2016. V. 49. N 1. P. 56-58.
Cao Hai-lian, Wang Xiao-min, Nan Hui, Qiu Yan-xing, Wang Fan-mao, Yang Xin, Chen Guo-shun. Corrosion resistance of electroless Ni–P–SiC composite coating on AZ91D magnesium matrix composite reinforced by Mg2B2O5 whisker. Cailiao baohu. 2015. V. 48. N 4. P. 27-29.
Zhang Zhongquan, Jiang Chuanhai, Ma Naiheng. Microstructure and Corrosion Behavior of Electrodeposited Ni-Co-ZrC Coatings. J. Mater. Eng. Perform. 2014. V. 23. N 11. P. 4065-4071.
Zoikis A., Karathanasis, Pavlatou E.A., Spyrellis N. Elettrodeposizione con corrente pulsata di rivestimenti compositi a matrice di nichelfosforo rinforzata con parti-celle di carburo di silicio. Parte II. Galvanotecnica e nuove finiture. 2014. V. 65, mar.-apr. P. 74-82.
Baghal S.M. Lari, Sohi M. Heydarzadeh, Amadeh A.
A functionally gradient nano-Ni-Co/SiC composite coating on aluminum and its tribological properties. Surf. Coat. Technol. 2012. V. 206. N 19-20. P. 4032-4039.
Li Zhen, Han Jie-sheng, Ma Wen-lin, Lü Jin-jun. The effect of the counterbody material on the frictional prop-erties of the Ni–P–SiC composite. Diandu yu tushi. 2012. V. 31. N 4. P. 26-29.
Li Cen, Xu Yun-hua. Corrosion resistance of a Ni-Co-SiC coating prepared by high-frequency pulsed electro-deposition. Diandu yu jingshi. 2010. V. 32. N 6. P. 1-5.
Yuan Xue-tao, Sun Dong-bai, Yu Hong-ying, Wang Yu. Effect of nano-SiC particles on the corrosion resistance of NiP-SiC composite coatings. Int. J. Miner. Met. and Mater. 2009. V. 16. N 4. P. 444-451.
Zhang H., Guo Z.-C. Corrosion morphology of Ni-W-P-SiC pulse composite coating. Fushi yu fanghu. 2005. V. 26. N 12. P. 515-517.
Pasăre Minodora, Petrescu Mircea Ionut. Heat treat-ment and P effect on Ni-P/SiC coatings hardness. Rev. roum. chim. 2008. V. 53. N 7. P. 563-567.
Zhang H., Guo Z.-C., Hu Y.-M. Corrosion resistance of Ni - W - P - SiC pulsely electro-deposited composite coating. Fushi Kexue yu Fanghu Jishu. 2005. V. 17. N 5. P. 320-323.
Characteristics of electrocodeposited NI-Co-SiC composite coating. Bull. Mater. Sci. 2006. V. 29. N 5. P. 491-496.
Chen Yuan-di, Jie Xiao-hua, Lu Guo-hui. Properties of Ni-P/Nano-SiC composite coatings prepared by electro-deposition with a moving contact. Cailiao baohu. 2006. V. 39. N 3. P. 11-13.
Brooman Eric W. Compliant electrodeposited and electroless nano-structured and nano-composite coatings to replace chromium coatings. Galvanotechnik. 2006. V. 97. N 2. P. 297-305.
Shi Lei, Sun Chufeng, Gao Ping, Zhou Feng, Liu Wei-min. Mechanical properties and wear and corrosion resistance of electrodeposited Ni-Co/SiC nanocomposite coating. Appl. Surface Sci. 2006. V. 252. N 10. P. 3591-3599.
Xu Rui-dong, Guo Zhong-cheng, Wang Jun-li. Structure and properties of electrodeposition RE-Ni-W-B-B4C-PTFE composite coating. Trans. Nonferrous Metals Soc. China. 2005. V. 15. P. 425-429.
Malfatti C.F., Zoppas Ferreira J., Santos C.B., Souza B.V., Fallavena E.P., Vaillant S., Bonino J.-P. NiP/SiC composite coatings: the effects of particles on the electro-chemical behaviour. Corros. Sci. 2005. V. 47. N 3. P. 567-580.
Shi Lei, Zhou Feng, Sun Chu-feng, Liu Wei-min. Corrosion resistance and tribological properties of nanocomposite coatings NiCo-SiC. Zhongguo youse jinshu xuebao. 2005.
V. 15. N 4. P. 536-540.
Guo Zhongcheng, Zhu Xiaoyun. Studies on properties and structure of electrodeposited RE-Ni-W-B-SiC composite coating. Mater. Sci. and Eng. A. 2003. V. 363. N 1-2. P. 325-329.
Zhang Huan, Guo Zhong-cheng, Zhu Xiao-yun. Impulse electrodeposition and corrosion resistance of composite coatings (Ni-W-P) -SiC. Diandu yu jingshi. 2004. V. 26. N 2. P. 4-7.
Ma Ke-yi, Guo Zhong-cheng, Zhu Xiao-yun, Xu Rui-dong. Characteristics of electrodeposited RE-Ni-W-B-B4C-MoS2 composite coating. Trans. Nonferrous Metals Soc. China. 2003. V. 13. N 5. P. 1220-1225.
Jia Yan-qin, Zong Gui-long, Dong Yun, Jia Peng. Investigation of corrosion wear in a 10% H2SO4 plating of Ni-W-Co alloy and Ni-W-Co/SiC composite coating. Hebei gongye daxue xuebao. 2003. V. 32. N 3. P. 34-40.
Li Qingyang, Lu Hao, Cui Juan, An Maozhong, Li D.Y. Elevate the corrosion potential of Zn coatings using ceramic nanoparticles. J. Solid State Electrochem. 2018. V. 22. N 6. P. 1949-1955.
Rudnik Ewa, Jucha Tomasz. Electroless and electrolytic deposition of Co-SiC composite coatings on aluminum. Surf. Coat. Technol. 2013. V. 232. P. 389-395.
Roventi Gabriella, Bellezze Tiziano, Fratesi Romeo. Electrodeposition of Zn-SiC nanocomposite coatings. J. Appl. Electrochem. 2013. V. 43. N 8. P. 839-846.
Deng Xing-shen, Liang Cui-ping. Obtaining and characteristics of the composite coating Zn-SiC. Diandu yu tushi. 2012. V. 31. N 7. P. 5-8.
Lekka M., Zendron G., Zanella C., Lanzutti A., Fedrizzi L., Bonora. Corrosion properties of micro- and nanocomposite copper matrix coatings produced from a copper pyrophosphate bath under pulse current. Surf. Coat. Technol. 2011. V. 205. N 11. P. 3438-3447.
Jiang Yanyan, Cao Mei, Guo Zhongcheng, Chen Buming. Obtaining and electrochemical properties of coatings from a lead/polyacrylonitrile/tungsten carbide composition obtained by electrodeposition on a titanium anode. Yingyong huaxue. 2011. V. 28. N 3. P. 308-313.
Guryanov G.V., Godunov S.S., Kisel P.E., Kisel Yu.E. Laser processing of wear-resistant composite electrochemical coatings. Uprochnyayushch. tekhnol. i pokrytiya. 2010. N 9. P. 32-37 (in Russian).
Rudnik Ewa, Burzyńska Lidia, Jędruch Jacek, Błaż Ludwik. Codeposition of SiC particles with electrolytic cobalt in the presence of Cs+ ions. Appl. Surf. Sci. 2009.
V. 255. N 16. P. 7164-7171.
Structural and functional properties of electrodeposited copper metal matrix composite coating with inclusions of WC. Mater. Sci. 2008. V. 14. N 1. P. 29-33, 88.
Tiwari Shruti, Balasubramaniam R., Gupta M. Corrosion behavior of SiC reinforced magnesium composites. Corros. Sci. 2007. V. 49. N 2. P. 711-725.
Fu Ping, Tian Hua, Xu Xue, Zhao Cheng. The technology of electrodeposition and the study of the properties of the composite coating Fe-SiC. Cailiao baohu. 2006. V. 39. N 4. P. 29-31.
Bozzini B., Giovannelli G., Natali S., Brevaglieri B., Cavallotti. P.L., Signorelli G. Hydrogen incorporation and embrittlement of electroformed Au, Cu and Au-Cu. Eng. Failure Anal. 1999. V. 6. N 2. С. 83-92.
Bocharov V.A. Galvanol ® is the enemy of corrosion No. 1. Korroziya territorii "Neftegaz" (TNG). 2017. N 2. P. 53 (in Russian).
Wang Hong-xing, Zhang Yan, Cheng Jia-lin, Li Yu-shan. High temperature oxidation resistance and microstructure change of alu-minized coating on copper substrate. Transact. Nonferrous Metals Society of China. 2015. V. 25. N 1. P. 184-190.
Abdel-Karim R., Halim J., El-Raghy S., Nabil M., Wa-heed A. Surface morphology and electrochemical characterization of electrodeposited Ni-Mo nanocomposites as cathodes for hydrogen evolution. J. Alloys and Compounds. 2012. V. 530. P. 85-90.
Abdel-Karim R., Halim J., El-Raghy S., Nabil M., Wa-heed A. Surface morphology and electrochemical characterization of electrodeposited Ni-Mo nanocomposites as cathodes for hydrogen evolution. Р. 2. J. Alloys and Compounds. 2012. V. 530. P. 91-95.
Yang Xiuying, Zhao Yanhong, Peng Xiao, Wang Fuhui. The effect of the particle size of Cr and Al on the oxidation of electrodeposited Ni–Cr–Al composite coatings. Zhong-guo fushi yu fanghu xuebao. 2011. V. 31. N 3. P. 190-195.
Ghanbari S., Mahboubi F. Corrosion resistance of electrodeposited Ni–Al composite coatings on the aluminum substrate. Materials and Design. 2011. V. 32. N 4. P. 1859-1864.
Chen Shang-Dong, Sun T., Nian H. Kinetics of high-temperature oxidation of composite coatings prepared on carbon steel by pulsed electrodeposition. Yingyong huaxue. 2010. V. 27. N 9. P. 1114-1116.
Medyukh V.K., Shvets V.A., Medyukh R.M., Talash V.N., Guslienko Yu.A., Medyukh N.R., Uvarova I.V. Electrochemical and corrosion properties of composite electrolytic and galvanophoretic coatings based on Ni. Porosh. metallurgiya. 2010. N 3-4. P. 126-130 (in Russian).
Aal Abdel A., Gobran H.A., Muecklich F. Advanced composite coating by electrodeposition technique. Surf. Eng. 2009. V. 25. N 8. P. 615-620.
Bolvardi H., Shokuhfar A., Daemi N. Predicting behavior of plasma nitrided Ni+Al composite coating using an artificial neural network model. Defect and Diffusion Forum. 2010. N 297-301. P. 1127-1132.
Abdel Aal A., Gobran H.A., Muecklich F. Electrodeposition of Ni-RuAl composite coating on steel surface. J. Alloys and Compounds. 2009. V. 473. N 1-2. P. 250-254.
Yang X., Peng X., Xu C., Wang F. Electrochemical assembly of Ni-xCr-yAl nanocomposites with excellent high-temperature oxidation resistance. J. Electrochem. Soc. 2009.
V. 156. N 5. P. C167-C175.
Zhou Y.-B., Peng X., Wang F.-H. Oxidation of a novel electrodeposited Ni - 28.0 mass% Al nanocoating. Fushi Kexue yu Fanghu Jishu. 2005. V. 17. N 4. P. 219-222.
Yang X., Peng X., Wang F. Effect of annealing treatment on the oxidation of an electrodeposited aluminaforming Ni–Al nanocomposite. Corros. Sci. 2008. V. 50. N 11. P. 3227-3232.
Zhou Yuebo, Meng Linghui, Zhang Haijun, Cheng Hongyu, Sun Jianfeng. The effect of Cr particle size on the oxidation of Ni-Cr composite coatings at 750 °C. Xiyou jinshu cailiao yu gongcheng. 2008. V. 37. N 6. P. 1095-1098.
Liu H., Chen W. Effect of pre-oxidation on coke formation and metal dusting of electroplated Ni3Al-CeO2-based coatings in CO-H2-H2O. Materials and Corrosion. 2008. V. 59. N 4. P. 311-318.
Mandal D. Influence of coating of short steel fiber reinforcements on corrosion behavior of aluminium base short steel fiber reinforced composites. J. Mater. Sci. 2007. V. 42. N 8. P. 2796-2801.
Deposition and characterization of nikelniobium composite electrocoatings. J. Appl. Electrochem. 2007. V. 37. N 7. P. 805-812.
Popczyk Magdalena, Budniok Antoni, Łagiewka Eugeniusz. Structure and corrosion resistance of nickel coatings containing tungsten and silicon powders. Mater. Charact. 2007. V. 58. N 4. P. 371-375.
Liu Haifeng, Chen Weixing. Carburization behavior of electrodeposited Ni3 Al-CeO2-base coatings on Fe-Ni-Cr alloys. Oxid. Metals. 2007. V. 67. N 3-4. P. 129-152.
Fratari R.Q., Robin A. Production and characterization of electrolytic nickel-niobium composite coatings. Surf. Coat. Technol. 2006. V. 200. N 12-13. P. 4082-4090.
Zhang Yan, Zhang Chunlin, Peng Xiao, Wang Fuhui. The effect of Cr particle size on the oxidation of electro-deposited Ni-Cr composite coatings. Zhongguo fushi yu fanghu xuebao. 2006. V. 26. N 2. P. 85-88.
Zhang C., Peng X., Zhao J., Wang F. Hot corrosion of an electrodeposited Ni-11 wt % Cr nanocomposite under molten Na2SO4-NaCl. J. Electrochem. Soc. 2005. V. 152. N 9. P. B321-B326.
Peng X., Zhang Y., Wang F. A novel electrodeposited Ni-Cr nanocomposite with increased resistance to pitting corrosion in 3.5% NaCl solution. Electrochem. and Solid-State Lett. 2005. V. 8. N 9. P. B46-B49.
Zhou Y., Peng X., Wang F. Size effect of Al particles on the oxidation of electrodeposited Ni-Al composite coatings. Oxid. Metals. 2005. V. 64. N 3-4. P. 169-183.
Zhou Y., Peng X., Wang F. Oxidation of a novel electrodeposited Ni-Al nanocomposite film at 1050°C. Scr. mater. 2004. V. 50. N 12. P. 1429-1433.
Susan D.F., Marder A.R. Oxidation of Ni-Al-base electrodeposited composite coatings. Oxid. Metals. 2002. V. 57. N 1-2. P. 159-180.
Desyatkova G.I., Savochkina I.E., Yagodkina L.M. The effect of heat treatment on the structure and properties of nickel coatings. Metally. 2001. N 2. P. 114-117 (in Russian).
Abdulwahab M. Structural evolution, thermomechanical recrystallization and electrochemical corrosion properties of Ni-Cu-Mg amorphous coating on mild steel fabricated by dual-anode electrolytic processing. Appl. Surf. Sci. 2016. V. 375. P. 162-168.
Mousavi R., Bahrololoom M.E., Deflorian F. Preparation, corrosion, and wear resistance of Ni-Mo/Al composite coating reinforced with Al particles. Materials and Design. 2016. V. 110. P. 456-465.
Vykpis K., Nidbala I., Popchik M., Budniok A., Lagievka E. Electrodeposition and properties of Zn–Ni+Ni composite coatings. Elektrokhimiya. 2012.V. 48. N 11. P. 1233-1239 (in Russian).
Kabisztal J., Nieolbata J., Budniok A. Corrosion re-sistance of Zn–Ni–P+Ni composite coatings. Surface and Interface Analysis. 2010. V. 42. N 6-7. P. 1222-1225.
Han Qing, Jin Yan, Pu Nianwen, Liu Kuiren, Jianshe Chen, Wei Xujun. Electrochemical evolution of hydro-gen on composite La–Ni–Al/Ni–S alloy film in water electrolysis. Renew. Energy: Internat. J. 2010. V. 35. N 12. P. 2627-2631.
Huang Z., Peng X., Wang F. Preparation and oxidation of novel electrodeposited Cu-Ni-Cr nanocomposites. Ox-id. Metals. 2006. V. 65. N 3-4. P. 223-236.
Panek J., Bercka-Piech. P., Lagiewska E., Budníok A. Electrodeposition and the properties of composite Zn+Ni coatings. Surf. Interface Analysis. 2010. V. 42. N 6-7. P. 1226-1230.
Cross S.R., Schuh C.A. Ternary alloying additions and multilayering as strategies to enhance the galvanic protection ability of Al-Zn coatings electrodeposited from ionic liquid solution. Electrochim. acta. 2016. V. 211. P. 860-870.
Xu Peng, Zhang Cheng, Wang Wei, Liu Lin. Pitting formation mechanism in an amorphous coating based on Fe, reinforced with stainless steel. Pitting mechanism in a stainless steel-reinforced Fe-based amorphous coating. Electrochim. acta. 2016. V. 206. P. 61-69.
Ageeva E.V., Karpenko N.N., Osminina A.S. Restora-tion of the steering knuckle of a car with galvanic coatings using tungsten-containing electroerosive nanopowders. Mir transporta i tekhnologich. mashin. 2016. N 2. P. 3-8. (in Russian).
Obidov Z.R. Effect of pH on the anodic behavior of ZN55AL alloy doped with beryllium and magnesium. Zhurn. priklad. khimii. 2015.V. 88. N 9. P. 1306-1312 (in Russian).
Liu Can-lou, Jiang She-ming, Liu Xin, Liu Qiu-yuan, Yu Gang-qiang, Zhang Qi-fu. Structure and corrosion resistance of hot dip galvanized Zn–Al–Mg–Ni–V alloy coating. Cailiao baohu. 2015. V. 48. N 9. P. 56-57.
Chen B., Zhong H., Zhang Q. Effects of Al content in zinc bath on coating structure and inhibition layer of 440 MPa IF-HS steel. Zhongguo fushi yu fanghu xuebao. 2013. V. 33. N 2. P. 171-174.
Semenikhin B.A., Kuznetsova L.P. Composite galvanic coatings based on iron and powders obtained by electro-erosive dispersion from solid alloy waste. Uprochn. tekhnol. i pokrytiya. 2014. N 4. P. 34-37 (in Russian).
Domashevskaya E.P., Lenshin A.S., Kashkarov V.M., Shabanova I.N., Terebova N.A. Investigations of porous silicon with deposited 3D-metals by auger- and ultrasoft X-ray emission spectroscopy. J. Nanosci. Nanotechnol. 2012. V. 12. N 11. P. 8806-8810.
Chen Weiwei, Wang Lu, Gao Wei. Synthesis of Zn-Bi nano-composite coatings by an ionic co-discharge process. Chem. Eng. J. 2012. V. 192. P. 242-245.
Li Baoping, Dong Anping, Zhu Guoliang, Chu Shuangjie, Qian Hongwei, Hu Chengjie, Sun Baode, Wang Jun. Investigation of the corrosion behaviors of continuously hotdip galvanizing Zn-Mg coating. Surf. Coat. Technol. 2012. V. 206. N 19-20. P. 3989-3999.
Ma Xiaoxu, He Yedong, Wang Deren. Preparation and high-temperature properties of Au nano-particles doped α-Al2O3 composite coating on TiAl-based alloy. Appl. Surf. Sci. 2011. V. 257. N 23. P. 10273-10281.
Luo Shenglian, Xiao Yan, Yang Lixia, Liu Chengbin, Su Fang, Li Yue, Cai Qingyun, Zeng Guangming. Simultaneous detoxification of hexavalent chromium and acid orange 7 by a novel Au/TiO2 heterojunction composite nanotube arrays. Separat. and Purificat. Technol. 2011. V. 79. N 1. P. 85-91.
Nawrat Ginter, Gonet Maciej, Gatnar Katarzyna. Tworzywa katodowe do procesow redukeji elektrochemicznej. Przem. chem. 2006. V. 85. N 8-9. P. 854-857.
Popczyk Magdalena, Budniok Antoni. Elektrolityczne otrzymywanie i charakterystyka warstw kompozytowych Ni-P+W i Ni-P+NiO+W w srodowisku alkalicznym. Kompozyty. 2003. V. 3. N 6. P. 17-22.
Serek Andrzej, Budniok Atoni. Otrzymywanie i wlas-nosci elektrolitycznych warstw kompozytowych na os-nowie niklu zawierajacych tytan. Kompozyty. 2002. V. 2. N 3. P. 63-67.
Serek A., Budniok A., Łosiewicz B. Odporność korozy-jna elektrolitycznych warstw kompozytowych na osnowie niklu zawierajacych tytan. Ochr. koroz. 2002. V. 45. N 11A. P. 173-178.
Yasin Ghulam, Khan Muhammad Abubaker, Arif Muhammad, Shakeel Muhammad, Hassan Tahira Mehtab, Khan Waheed Qamar, Korai Rashid Mustafa, Abbas Zaheer, Zuo Yu. Synthesis of sphereslike Ni/graphene nanocomposite as an efficient anti-corrosive coating; ef-fect of graphene content on its morphology and mechanical properties. J. Alloys and Compounds. 2018. V. 755. P. 79-88.
Szeptycka Benigna, Gajewska-Midzialek Anna, Babul Tomasz. Electrodeposition and Corrosion Resistance of Ni-Graphene Composite Coatings. J. Mater. Eng. Per-form. 2016. V. 25. N 8. P. 3134-3138.
Chen Jinming. The electroplating process and equipment of grinding head Ni-diamond composite coating. Diandu yu jingshi. 2016. V. 38. N 2. P. 23-28.
Apostolova R.D., Peskov R.P., Kolomoets O.V. Improving the efficiency of using electrolytically deposited iron and cobalt sulfides with a sublayer of a NiC composite in a lithium battery. Zhurn. priklad. khimii. 2015. V. 88. N 10. P. 1454-1459 (in Russian).
Ye Dalin, Zeng Xiaoshu, Wu Shengwei, Huang Minfu, Wei Jiaqi. Friction and wear behavior of electrochemical Ni-based CNTs composite coatings. Jinshurechuli. 2015. V. 40. N 2. P. 41-43.
Polishchuk Yu.V., Nefedov V.G., Butova E.A., Vasilyeva E.A., Baskevich A.S., Zakharov V.D., Vaganov V.E. Composite electrolytic coatings based on nickel with carbon nanomaterials. Voprosy khimii i khim. tekhnologii. 2013. N 4. P. 172-174, 220, 226 (in Russian).
Qian Zhouhai, Zhou Haifei, Du Nan, Tian Gangqiang, Shen Xiaoming, Chen Chen. Electrochemical action of particles in Ni-diamond composite electrodeposite baths. Xiyou jinshu cailiao yu gongcheng. 2014. V. 43. N 7. P. 1633-1637.
Tyryshkina L.E., Chiganova G.A., Abkaryan A.K. The effect of nanodiamonds on the microstructure of nickel coatings. Izv. vuzov. Poroshkovaya metallurgiya i funktsional’nye pokrytiya. 2014. N 2. P. 54-58 (in Rus-sian) DOI:10.17073/ 1997-308X-2014-2-54-58.
He Xiang-zhu, Zhang Wen-jun, Hu Zhen-ping. Electro-deposition of a composite coating Ni-carbon nanotubes on an Al substrate. Diandu yu tushi. 2014. V. 33. N 5. P. 197-200.
Aleksakhin A.V. Investigation of the physicomechanical characteristics of the “nickel-detonation nanodiamonds” galvanic composite coating. Kompozity i nanostruktury. 2013. N 2. P. 22-29 (in Russian).
Zhang Yang, Fang Lili, Liu Shiguo. The influence of the regime on the quality of electroplated nickel-diamond coating. Jingangshi yu moliaomoju gongcheng. 2011. V. 31. N 3. P. 5-10.
Tseluykin V.N., Vasilenko E.A. Electrodeposition and properties of composite coatings based on nickel. Russ. J. Appl. Chem. 2011. V. 84. N 11. P. 2005-2007.
Chiganova G.A., Mordvinova L.E. The effect of the modification of nanodiamonds on the characteristics of diamond-containing nickel coatings. Neorgan. materialy. 2011. V. 47. N 7. P. 801-805 (in Russian).
Golovin Yu.I., Litovka Yu.V., Shuklinov A.V., Vasyukov V.M., Stolyarov R.A., Polyakov L.E., Dyakov I.A., Tkachev A.G. Nickel plating modified with carbon nanotubes. Deformatsiya i razrusheniye. 2011. N 1. P. 31-34 (in Russian).
Electrochemical and corrosive properties of composite electrolytic and galvanophoretic coatings based on Ni. Porosh. metallurgiya. 2010. N 5-6. P. 130-135 (in Russian).
Tkachev A.G., Litovka Yu.V., Dyakov I.A., Kuznetsova O.A. Obtaining nanomodified composite nickel plating Gal'vanotekhnika i obrabotka poverkhnosti. 2010. V. 18. N 1. P. 17-21 (in Russian).
Bykov V.V., Golubev I.G., Kiselev D.A. Nanogalvanic coatings for the restoration of hydraulic equipment for forest machines. Metallurgiya mashinostr. 2009. N 5. P. 28-29 (in Russian).
Moon Y.-S., Lee J.-H., Oh T.-S., Byun J.-Y. Fabrication of diamond dispersed nickel composite coating by electroplating method to enhance the mechanical property of coating. Key Eng. Mater. 2007. N 345-346. P. 1597-1600.
Guo Chao, Zuo Yu, Zhao Xuhui, Zhao Jingmao, Xiong Jinping. The effects of electrodeposition current density on properties of Ni-CNTs composite coatings. Surf. Coat. Technol. 2008. V. 202. N 14. P. 3246-3250.
Chen X.H., Chen C.S., Xiao H.N., Cheng F.Q., Zhang G. Corrosion behavior of carbon nanotubes - Ni composite coating. Surf. Coat. Technol. 2005. V. 191. N 2-3. P. 351-356.
Zhang Gang, Li Shao-lu, Chen Xiao-hua, Wang Jian-xiong, Chen Chuan-sheng, Yi Guo-jun, Sun Xin-yuan. Corrosion behavior of a nanotube carbon/Ni composite coating. Zhongguo youse jinshu xuebao. 2003. V. 13. N 4. P. 996-1000.
Tseluykin V.N., Koreshkova A.A. Pulsed electrodeposition of composite coatings based on zinc–nickel alloy. Protect. of Metals and Phys. Chem. of Surf. 2018. V. 54. N 3. P. 453-456.
Li Han, Luo Fu-jian, Fan Yi, Xu Wei, Li Feng, Wei Zhen-lu, He Yi. Pulse electrodeposition of nickel–tungsten–halloysite nanotube composite coating and its corrosion resistance. Dianduyutushi. 2016. V. 35. N 13. P. 672-676.
Tseluykin V.N., Koreshkova A.A. Composite electro-chemical coatings modified with carbon nanotubes: pro-duction and properties. Dizayn. Materialy. Tekhnologiya. 2015. N 5. P. 53-55, 116 (in Russian).
Mazaheri Hamed, Allahkaram Saeed Reza. Deposition, characterization and electrochemical evaluation of Ni-P-nano diamond composite coatings. Appl. Surface Sci. 2012. V. 258. N 10. P. 4574-4580.
Coating study. Jingangshi yu moliaomoju gongcheng. 2010. V. 30. N 5. P. 26.
Shi Y.L., Yang Z., Xu H. Preparation of electroplated Ni-P-ultrafine diamond, Ni-P-carbon nanotubes composite coatings and their corrosion properties. J. Mater. Sci. 2004. V. 39. N 18. P. 5809-5815.
Yakimova I.D., Yagodkina L.M., Savochkina I.E., Khaldeev G.V. Structure and physicochemical properties of nickel-boron-diamond plating before and after heat treatment. Khim. zh. Ural. un-tov. 2002.V. 3. P. 205-213 (in Russian).
Tsybulskaya L.S., Gaevskaya T.V., Gubarevich T.M., Korzhenevsky A.P. Obtaining and properties of composite electrochemical coatings nickel-boron-diamond. Gal'vanotekhnika i obrabotka poverkhnosti. 1996. V. 4. N 1. P. 14-20 (in Russian).
Vinokurov E.G., Abrashov A.A., Nevmyatullina K.A., Vagramyan T.A. Investigation of the diffusion of elements between a steel substrate and a Ni-P-diamond composite electrolytic coating. Russ. J. Appl. Chem. 2017. V. 90. N 10. P. 1568-1571.
Shen Xixun, Sheng Junwei, Zhang Qinghui, Xu Qunjie, Cheng Danhong. The Corrosion Behavior of Zn/Graphene Oxide Composite Coatings Fabricated by Direct Current Electrodeposition. J. Mater. Eng. Perform. 2018. V. 27. N 7. P. 3750-3761.
Grafushin R.V., Vinokurov E.G., Makhina V.S., Bu-rukhina T.F. Electrodeposition and physicomechanical properties of chromium-based composite coatings with various carbon modifications. Gal'vanotekhnika i obrabotka poverkhnosti. 2018. V. 26. N 2. P. 26-32 (in Russian).
Stempluk R.G. Operating experience of chromium electrolytes with nanodiamonds. Mir gal'vaniki. 2017. N 4. P. 14-23 (in Russian).
Zhang Chi, Zheng Da-Jiang, Song Guang-Ling. Galvanic effect between galvanized steel and carbon fiber reinforced polymers. Acta metallurgica sinica. 2017. V. 30. N 4.
P. 342-351.
Karousos Dionysios S., Desdenakis Kostantinos I., Sakkas Petros M., Sourkouni Georgia, Pollet Bruno G., Argirusis Christos. Sonoelectrochemical one-pot synthesis of Pt - Carbon black nanocomposite PEMFC electrocatalyst. Ultrason. Sonochem. 2017. V. 35. P. 591-597.
Feng Ying, Gary E. McGuire, Shenderova Olga A., Ke Huajie, Burkett Susan L. Fabrication of copper/carbon nanotube composite thin films by periodic pulse reverse electroplating using nanodiamond as a dispersing agent. Thin Solid Films. 2016. V. 615. P. 116-121.
Ma Ru-long, Peng Chao-qun, Wang Ri-chu, Wang Xiao-feng, Zhang Chun, Tan Shi-yu. Preparation of Cu-diamond composite coating by composite electroplating. Zhongguo youse jinshu xuebao. 2015. V. 25. N 12. P. 3414-3421.
Ryzhov E.V., Marusina T.M., Ryzhov M.E. Detonation and laser synthesis nanodiamonds - the second wind of composite chromium coatings. Mir gal'vaniki. 2015. N 1. P. 38-43 (in Russian).
Wang Li-wei, Yu Jin, Liu Shuai. Effect of dispersant on corrosion behavior of electrodeposited silver/carbon composite coating. Cailiao baohu. 2015. V. 48. N 5. P. 17-19, 34.
Punith Kuram M.K., Singh M.P., Srivastava C. Electrochemical behavior of Zn-graphene composite coatings. RSC Adv.: Internat. J. Further Chem. Sci. 2015. V. 5. N 32. P. 25603-25608.
Shevchenko T.Yu., Solovieva N.D. Electrodeposition of composite electrochemical coatings zinc–colloidal graphite. Korroziya: materialy, zashchita. 2015. N 6. P. 41-45 (in Russian).
Litovka Yu.V., Dyakov I.A., Simagin D.N., Gravin A.A., Kulakov V.Yu. Influence of Taunit nanotubes on the properties of galvanic and electrochemical anodic oxide coatings. Mir gal'vaniki. 2014. N 2. P. 68-74 (in Russian).
Yaskelchik V.V., Zharsky I.M., Burkat G.K., Chernik A.A., Mikhedova E.V. Obtaining and properties of cop-per coatings from citrate electrolyte in the presence of ultrafine diamonds. Izv. SPbGTI (TU). 2015. N 28. P. 25-28 (in Russian).
ZhuJ., WangD., CaoL., LiuT. Ultrafast preparation of three-dimensional porous tin–graphene composites with superior lithium ion storage. J. Materials Chem. A. 2014. V. 2. N 32. P. 12918-12923.
Arai Susumu, Kato Akihiro. Mechanism for codeposition of multiwalled carbon nanotubes with copper from acid copper sulfate bath. J. Electrochem. Soc. 2013. V. 160. N 9. P. D380-D385.
Burkat G.K., Safronova I.V. The structure and properties of silver coatings with nanocarbon additives. Mir gal'vaniki. 2013. N 3. P. 56-59 (in Russian).
Zhu Junsheng, Wang Dianlong, Liu Tiefeng, Guo Chenfeng. Preparation of Sn-Co-graphene composites with superior lithium storage capability. Electrochim. ac-ta. 2014. V. 125. P. 347-353.
Tseluykin V.N., Koreshkova A.A. On the corrosion properties of composite coatings zinc – carbon nanotubes. Korroziya: materialy, zashchita. 2014. N 3. P. 31-34 (in Russian).
Wang Zhao-yang, Zheng Jing-wu, Cai Wei. Process for preparation of novel cutting wire by copper-diamond composite. Diandu yu tushi. 2014. V. 33. N 1. P. 17-20.
Khaleghi Evan, Torikachvili Milton, Meyers Marc A., Olevsky Eugene A. Magnetic enhancement of thermal conductivity in copper-carbon nanotube composites produced by electroless plating, freeze drying, and spark plasma sintering. Mater. Lett. 2012. V. 79. P. 256–258.
Zhang Yang, Fang Lili, Liu Shiguo. The influence of the regime on the quality of galvanic nickel-diamond coating. Jingangshi yu moliaomoju gongcheng. 2011. V. 31. N 3. P. 5-10.
Hu Zhengxi, Jie Xiaohua, Lu Guohui. Corrosion resistance of Pb-Sn composite coatings reinforced by carbon nanotubes. J. Coat. Technol. and Res. 2010. V. 7. N 6. P. 809-814.
Stolyarov R.A., Tkachev A.G., Litovka Yu.V., Shuklinov A.V., Vasyukov V.M., Polyakov L.E. Copper galvanochemical coating modified with multi-walled carbon nanotubes. Vestn. Tambov. un-ta im. G. Derzhavina. 2010. V 15. N 5. P. 1481-1482 (in Russian).
Aung Naing Naing, Zhou Wei, Goh Chwee Sim, Nai Sharon Mui Ling, Wei Jun. Effect of carbon nanotubes on corrosion of Mg–CNT composites. Corros. Sci. 2010. V. 52.
N 5. P. 1551-1553.
Nguyen Viet-Hue, Hoang Thi-Nam, Nguyen Ngoc-Phong, Kwon Sik-Chol, Kim Man, Lee Joo-Yul. Cr/nanodiamond composite plating with cobalt cation ad-ditive. Trans. Nonferrous Metals Soc. China. 2009. V. 19. N 4. P. 975-978.
Praveen B.M., Venkatesha T.V., Arthoba Naik Y., Prashantha K. Corrosion studies of carbon nanotubes-Zn composite coating. Surface and Coat. Technol. 2007. V. 201. N 12. P. 5836-5842.
Tikhonov K.I., Burkat G.K., Dolmatov V.Yu., Orlova E.A. Use of diamond stock in chromium plating. Russ. J. Appl. Chem. 2007. V. 80. N 7. P. 1082-1086.
Zhao Haijun, Liu Lei, Wu Yating, Hu Wenbin. Investigation of wear and corrosion behavior of Cu-graphite composites prepared by electroforming. Internat. J. Com-pos. Sci. and Technol. 2007. V. 67. N 6. P. 1210-1217.
Medeliene Viktorija. A study of some functional properties of copper matrix composite coatings with Al2O3 and diamond microparticles. V. Galvanotechnik. 2004. V. 95. N 7. P. 1618-1628.
Burkat G.K., Dolmatov V.Yu. Obtaining and properties of composite coatings of tin-diamond and tin-bismuth-diamond from an acidic electrolyte. Gal'vanotekhnika i obrabotka poverkhnosti. 2002.V. 10. N 2. P. 17-23 (in Russian).
Ovcharenko A.G., Frolov A.V. The use of UDD deep cleaning in resource-saving technologies. Obrab. met. 2002. N 2. P. 36-37 (in Russian).
Mandich N.V., Dennis D.K. The coprecipitation of ultrafine particles of diamond with chromium. Gal'vanotekhnika i obrabotka poverkhnosti. 2002. V. 10. N 1. P. 17-19 (in Russian).
Khmyl A.A., Mushovets I.I., Emelyanov V.A., Dostanko A.P. The influence of electrolysis modes on the substructure of composites silver-ultrafine diamond. Dokl. Nats. AN Belarusi. 2001.V. 45. N 6. P. 119-121, 139 (in Russian).
Burkat G.K., Dolmatov V.Yu. Obtaining and properties of zinc-diamond composite electrochemical coatings from zinc electrolyte. Gal'vanotekhnika i obrabotka poverkhnosti. 2001. V. 9. N 2. P. 35-38 (in Russian).
Khmyl A.A., Emelyanov V.A., Mushovets I.I., Kutsenko V.M. Programmable processes and equipment for the formation of composite electrolytic coatings silver - ultrafine diamond. Gal'vanotekhnika i obrabotka poverkhnosti. 2001. V. 9. N 3. P. 26-34 (in Russian).
Survilliene Swietlana, Biallozor Swietlana. Chrom-Diamant-Dispersionsschichten. V. Galvanotechnik. 2001. V. 92. N 6. P. 1541-1543.
Dolmatov V.Yu., Burkat G.K., Saburbaev V.Yu., Salko A.E., Veretennikova M.V. Obtaining and properties of electrochemical composite coatings of noble and nonferrous metals with ultrafine diamonds of detonation synthesis. Sverkhtverd. mater. 2001. N 2. P. 52-57 (in Russian).
Mandich N.V., Dennis J.K. Codeposition of nanodiamonds with chromium. Metal Finish. 2001. V. 99. N 6. P. 117-119.
Peng X., Li T., Wu W. Effect of La2O3 particles on the oxidation of electrodeposited nickel films. Oxid. Metals. 1999. V. 51. N 3-4. P. 291-315.
Ovchinnikov E.V., Leshchik S.D., Struk V.A., Kholodilov O.V., Fedorov D.I. Tribological characteristics of composite, multilayer coatings. Treniye i iznos. 2000. V. 21. N 2. P. 147-157 (in Russian).
Pidhaichuk S.Ya., Yavors'ka N.M., Abramov О.О. Determination of the Optimal Modes of Annealing for Composite Electrolytic Coatings Based on Nickel. Mate-rials Science. 2017. V. 53. N 1. P. 22-27.
Li Xingyuan, Zhu Yongyong, Xiao Guorong. Applica-tion of artificial neural networks to predict sliding wear resistance of Ni-TiN nanocomposite coatings deposited by pulse electrodeposition. Ceramics International. 2014. V. 40. N 8. P. 11767-11772.
Hartung Rudiger, Schmidt Jurgen, Both Sabine. Tribologische Nickel-Dispersionsschichten mit hexagonalem Bornitrid. VI. Galvanotechnik. 2008. V. 99. N 12. P. 2931-2939.
Xia Fa-feng, Wu Meng-hua, Jia Zhen-yuan, Li Zhi. The effect of TiN nanoparticles on Ni-TiN composite coatings. Jinshu rechuli. 2007. V. 32. N 3. P. 62-64.
Kowalewska M., Trzaska M. Corrosion characteristics of nanocrystalline Ni/Si3N4 composite layers. Inž. powierzchni. 2005. N 2A. P. 131-137.
Zhao Fu-guo, Huang Hao, Wang Fei, Guo Dao-yuan, Lü Bo, Dong Xing-long. The structure and mechanical properties of composite coatings of (Ni-P)-TiN nanoparticles deposited by electro-brushing. Diandu yu jingshi. 2010. V. 32. N 9. P. 1-4.
Wan Jia-gui, Luo Hua-feng, An Yong-qing. The study of the deposition of an electrolytic composite coating (Ni-P)-nano-Si3N4. The effect of surfactants. Diandu yu jingshi. 2008. V. 30. N 12. P. 13-15, 40.
Song Zhen-xing, Yao Suwei, Wang Hong-zhi, Yao Yingwu. The study of corrosion in acetic acid of composite precipitation Ni-P/Si3N4. Diandu yu tushi. 2006. V. 25. N 11. P. 1-4.
Krishnaveni K. Corrosion resistance of electrodeposited Ni-B and Ni-B-Si3N4 composite coatings. J. Alloys and Compounds. 2009. V. 480. N 2. P. 765-770.
Xia Fafeng, Liu Chao, Ma Chunhua, Chu Dianqing, Miao Liang. Preparation and corrosion behavior of electrodeposited Ni-TiN composite coatings. Internat. J. Refract. Metals and Hard Materials. 2012. V. 35. P. 295-299.
Zheleznov E.V., Kuznetsov V.V. Composite chromium coatings with ultrafine particles BNwürz and WC, obtained from electrolytes based on Cr (VI). Gal'vanotekhnika i obrabotka poverkhnosti. 2017. V. 25. N 1. P. 34-40 (in Russian).
Scherenkova I.S., Gadalov V.N., Shkatov V.V., Romanenko D.N. The effect of superhard particles on improving the operational properties of electrochemical coatings. Zagotovit. proizvodstva v mashinostr. Procurement in engineering. 2017.V. 15. N 2. P. 84-90 (in Russian).
Ma Guozheng, Xu Binshi, Wang Haidou, Wang Xiaohe, Li Guolu, Zhang Sen. Research on the microstructure and space tribology properties of electric-brush plated Ni/MoS2-C composite coating. Surf. Coat. Technol. 2013. V. 221. P. 142-149.
Chen Wei-Xiang, Tu Jiang-Ping, Ma Xiao-Chun, Xu Zhu-De, Chen Wen-Lu, Wang Jiu-Gen, Cheng Dan-Hong, Ia Jun-Bao, Gan Hai-Yang, Jin Ya-Xu, Tenne R., Rosenstveig R. Preparation and tribological properties of a galvanic Ni-P coating containing inorganic fullerene-like WS2 nanomaterials. Huaxue xuebao. 2002. V. 60. N 9. P. 1722-1726.
Chen Yuan-di. Adhesive wear rosistance of composite brush plating coating composed of nano-MoS2. Cailiaobaohu. 2016. V. 49. N 4. P. 26-28, 35.
Polyakov N.A., Danilov A.I., Polukarov Yu.M. Corrosion-electrochemical behavior of composite chromium coatings from sulfate-oxalate solutions of Cr (III). Prakti-ka protivokorrozion. zashchity. 2012. N 2. P. 66-70 (in Russian).
Vitinya I., Grabis J., Zalite I., Belmane V., Rubene V. Structure and properties of electrodeposited composite coatings based on metal-nanodispersed inorganic compounds. Mekh. kompozit. mater. 2004. V. 40. N 3. P. 403-417 (in Russian).
Startsev V.O., Molokov M.V., Salakhova R.K., Semenychev V.V. Moisture transfer in nickel-plated polymer composites. Klei. Germetiki. Tekhnologii. 2017. N 2. P. 18-24 (in Russian).
Kvasnikov M.Yu., Romanova O.A., Krylova I.A., Utkina I.F., Smirnov K.N., Korolev Yu.M., Kiselev M.R., Antipov E.M. Joint electrodeposition at the cathode of oligomeric compounds and nickel. Gal'vanotekhnika i obrabotka poverkhnosti. 2015.V. 23. N 1. P. 39-46 (in Russian).
Kim Jae-Ho, Yamamoto Kenta, Yonezawa Susumu, Takashima Masayuki. Effects of Ni-PTFE composite plating on AB5-type hydrogen storage alloy. Mater. Lett. 2012.
V. 82. P. 217-219.
Klemenkova V.S., Soboleva E.S., Koshel S.G. Obtaining a composite nickel fluoroplastic coating having antifriction properties. Gal'vanotekhnika i obrabotka poverkhnosti. 2010. V. 18. N 1. P. 28-31 (in Russian).
Shoeib M. Structure and properties of electropdeposited Ni-PTFE coatings. Corros. Prev. and Contr. 2002. V. 49. N 4. P. 141-146.
Starosta R., Chabowski R. Badania potencjodynamiczne elektrolitycznych powłok dyspersyjnych. Ochr. koroz. 2002. V. 45. N 11. P. 209-213.
Szeptycka B. Hybrydowe powłoki galwaniczne Ni-SiC-PTFE. Ochr. koroz. 2002. P. 390-395.
Utkin O.V., Bobrovsky L.K., Kubov Yu.K., Soboleva E.S., Kukhtenkov R.S. The principles of the formation of composite fluoroplastic coatings based on a copolymer of tetrafluoroethylene with ethylene and the study of their properties. Vestn. Yaroslav. gos. tekh. un-ta. 1999. N 2. P. 98-102 (in Russian).
Szeptycka Benigna. Galvanischehybride Dispersionsschichten. Galvanotechnik. 2002. V. 93. N 3. P. 663-671.
Ibe Toshio, Matsumura Yuichi, Ueno Toshihide, Kiyokawa Hajime, Yonezawa Susumu, Takashima Masayuki. The electrochemical deposition of a Ni composite film is a fluoroplastic on a powder of a hydrogen-absorbing alloy of type AB5. Nippon kagaku kaishi. 2001. N 7. P. 387-391.
Balakai V.I., Arzumanova A.V., Murzenko K.V., Balakay I.V. Wear resistance of a composite electrolytic coating of nickel-cobalt-fluoroplastic deposited from a chloride electrolyte. Treniye i iznos. 2018. V. 39. N 2. P. 135-140 (in Russian).
Wang Qianqian, Zong Quan, Zhang Chunlei, Yang Hui, Zhang Qilong. Network structure of SnO2 hollow sphere/PANI nanocomposites for electrochemical performance. Dalton Transact.: Internat. J. Inorg. Chem. 2018. V. 47. N 7. P. 2368-2375.
Mikius Nicole. Corrosion resistance of high phosphorus nickel coatings with a low coefficient. friction, coprecipitation of nanoparticles and chemical nickel coatings. Mir gal'vaniki. 2017. N 2. P. 54-59 (in Russian).
Andreeva N.P., Larionov A.V., Grafov O.Yu., Golubchikov O.A., Kazansky L.P., Kuznetsov Yu.I. Adsorption of 5,10,15,20-tetrakis (N-methylpyridyl-4 ') tetratosylate porphin on the surface of nickel from an aqueous solution. Korroziya: materialy, zashchita. 2016. N 10. P. 22-29 (in Russian).
Niedbala J. Structure, morphology and corrosion resistance of Ni-Mo+PTh composite coatings. Bull. Mater. Sci. 2015. V. 38. N 3. P. 695-699.
Chen H., Li J.H., Yang J.G. Research of electrodeposit-ed Re-Ni-Fe-P-PTFE composite coating. Adv. Mater. Res. 2011. V. 214. P. 93-96.
Danilov F.I., Sknar I.V., Sknar Yu.E., Vakulenko V.M. Electrodeposition of brilliant nickel – iron coatings. Gal'vanotekhnika i obrabotka poverkhnosti. 2010. V. 18. N 1. P. 11-16 (in Russian).
Rezrazi M., Doche M.L., Bercot. P., Hihn J.Y. Au-PTFE composite coatings elaborated under ultrasonic stirring. Surface and Coat. Technol. 2005. V. 192. N 1. P. 124-130.
Wang Jun-li, Xu Rui-dong, Long Jin-ming, Guo Zhongcheng. Properties of pulsed electrodeposition of composite coatings RE-Ni-W-B-polytetrafluoroethylene-Al2O3. Cailiao baohu. 2005. V. 38. N 3. P. 18-20.
Du ke-qin, Kou Jin, Yan Chuan-wei. Study of electrodeposition of a Ni/W-polytetrafluoroethylene composite. Diandu yu jingshi. 2004. V. 26. N 1. P. 9-12.
Ashassi-Sorkhabi Habib, Bagheri Robabeh, Rezaei-Moghadam Babak. Protective properties of PPy-Au nanocomposite coatings prepared by sonoelectrochemistry and optimized by the Taguchi method. J. Appl. Poly-mer Sci. 2014. V. 131. N 22. P. 41087.
Kiseleva E.A., Berengarten M.G., Sevastyanov A.P. Research and optimization of membrane-electrode blocks for portable fuel cells. 3-ya Mezhdunar. Konf. Ross. Khim. Obshch. im. D.I. Mende-leyeva: «Resursosberegayushchiye i energoeffektivnyye tekhnologii v khimicheskoy i neftekhimicheskoy promyshlennosti». Tez. dokl. Moskva. 2011. P. 168 (in Russian).
Vasilakopoulos D., Bouroushian M. Electrochemical codeposition of PMMA particles with zinc. Surf. Coat. Technol. 2010. V. 205. N 1. P. 110-117.
Skibina L.M., Kuznetsov V.V., Sokolenko A.I., Loskutnikova I.N., Yakusheva M.A. Electrodeposition kinetics as well as structures and properties of nanostructured copper polymer coatings based on n-methylpyrrolidone. Protect. of Metals and Physi. Chem. of Surf. 2009. V. 45. N 1. P. 75-80.
Tientong J., Ahmad Y.H., Nar M., D'Souza N., Mo-hamed A.M. A., Golden T.D. Improved mechanical and corrosion properties of nickel composite coatings by incorporation of layered silicates. Mater. Chem. Phys. 2014. V. 145. N 1-2. P. 44-50.
Verschleißfeste Schichten auf Spindeln. Werkstoffe in der Fertigung. 2011. N 4. P. 18.
Tseluykin V.N., Solovieva N.D., Gunkin I.F. Modifica-tion by fullerene C60 of metal surfaces. Ros. nanotekhnol. 2008. V. 3. N 7-8. P. 80-83 (in Russian).
Rethinam A. John, Ramesh Bapu G.N.K., Krishnan R.M. Deposition of nickel-mica electrocomposites and characterisation. Mater. Chem. and Phys. 2004. V. 85. N 2-3. P. 251-256.
DLC-coated components from Hasco boost productivity. ETMM. 2019. V. 21. N 6. P. 20.
Tseluykin V.N., Zakirova S.M., Belyakova D.A., Yаkovlev A.V., Strilets A.A. Electrochemical deposition and properties of composite coatings modified with carbon materials. 21 Mendeleyevskiy s"yezd po obshchey i prikladnoy khimii. Sb. tez. Sankt-Peterburg. 2019. V. 2b. P. 523.
Singh Kehar, Dwivedi Chandra Shekhar. Electrochemical formation and corrosion studies on zinc-nickel alloys. J. Indian Chem. Soc. 2004. V. 81. N 12. P. 1149-1155.
Vinokurov E.G. Galvanochemical surface treatment: resource intensity, classification, systematic approach to the selection of resource-efficient technology. 21 Mendeleyevskiy s"yezd po obshchey i prikladnoy khimii. Sb. tez. Sankt-Peterburg. 2019. V. 3. P. 197.
Gupta Abhay, Srivastava Chandan. Optimum amount of graphene oxide for enhanced corrosion resistance by tin-graphene oxide composite coatings. Thin Solid Films. 2018. V. 661. P. 98-107.
Galchenko G.Yu. Corrosive composition of zinc and electrolytic coating. Metallurg. i gornorud. prom-st'. 2013. N 3. P. 107-109 (in Russian).
Leontyev L.B., Shapkin N.P., Leontyev A.L., Toklikishvili A.G. Investigation of the influence of the parameters of the formation of cermet coatings on the tribological properties of the interface. Metalloobrabotka. 2012. N 2. P. 28-30 (in Russian).
Zhachkin S.Yu., Mikhailov V.V., Gedzenko D.V., Zhivogin A.A. Microhardness of iron-based composite electroplated coatings. Vestn. Voronezh. gos. tekhn. un-ta. 2012.
V. 8. N 6. P. 51-53 (in Russian).
Panagopoulos C.N., Georgiou E.P., Gavras A.G. Compositezinc-flyashcoatingonmildsteel. Surf. Coat. Technol. 2009. V. 204. N 1-2. P. 37-41.
Zhu Zengwei, Zhu Di. The effect of solid particle perturbation on the microstructure and properties of electroforming copper. Zhongguo youse jinshu xuebao. 2006. V. 16. N 9. P. 1558-1562.
Vinokurov E.G., Zuev K.V., Zhigunov F.N., Perevalov V.P. Wear resistance of nickel–phosphorus–modified copper phthalocyanate composition coatings. Protect. of Metals and Phys. Chem. of Surf. 2018. V. 54. N 1. P. 92-94.
Perevalov V.P., Vinokurov E.G., Zuev K.V., Vasilenko E.A., Tsivadze A.Y. Modification and application of metal phthalocyanines in heterogeneous systems. Protect. of Metals and Phys. Chem. of Surf. 2017. V. 53. N 2. P. 199-214.
Grafushin R.V., Vinokurov E.G., Makhina V.S., Bu-rukhina T.F. Electrodeposition and physicomechanical properties of chromium-based composite coatings with various carbon modifications. Gal'vanotekhnika i obrabotka poverkhnosti. 2018. V. 26. N 2. P. 26-32 (in Russian).
Skopintsev V.D., Vinokurov E.G. Tribological characteristics of metal-oxide and hybrid composite coatings. Glass and Ceramics. 2019. V. 76. N 1-2. P. 22-26.
Tseluykin V.N., Tolstova I.V., Solovieva N.D., Gunkin I.F. Properties of composite coatings nickel-fullerene C60. Gal'vanotekhnika i obrabotka poverkhnosti. 2006. V. 14.
N. 1. P. 28-31 (in Russian).
Tseluykin V.N., Solovyova N.D., Gunkin I.F. Electrodeposition of nickel-fullerene C60 composition coatings. Protection of Metals. 2007. V. 43. N 4. P. 388-390.
Tseluykin V.N., Solovyova N.D., Gunkin I.F. Modification by fullerene C60 of metal surfaces. Ros. nanotekhnol. 2008. V. 3. N 7-8. P. 80-83 (in Russian).