ArticleName |
Chemical black nickel coatings on steels |
ArticleAuthorData |
D. Mendeleev University of Chemical Technology of Russia, Moscow, Russia:
O. A. Vasilenko, Associate Professor at the Department of Innovative Materials and Corrosion Protection, Candidate of Technical Sciences, Associate Professor, e-mail: vasilenko.o.a@muctr.ru, 4428569@mail.ru D. V. Mazurova, Associate Professor at the Department of Innovative Materials and Corrosion Protection, Candidate of Technical Sciences, e-mail: mazurova.d.v@muctr.ru, mazurova-diana@yandex.ru T. A. Chudnova, Associate Professor at the Department of Innovative Materials and Corrosion Protection, Candidate of Technical Sciences, e-mail: violatan@yandex.ru A. V. Orshanskiy, Undergraduate Student at the Department of Innovative Materials and Corrosion Protection, e-mail: albert_orsh@mail.ru |
Abstract |
Having high corrosion resistance and hardness, black conversion coatings are used as functional, as well as protective and decorative coatings. Black chrome and nickel electroplated coatings are mainly used for these purposes. The main drawbacks of the chromium plating processes are related to the fact that they are rather difficult to realize and control and that they consume a great amount of energy as the solutions need to be heated up and some of the heat gets lost during hydrogen evolution reaction. The known black nickel plating processes are less energy intensive and easier to implement, however they have their drawbacks, such as low protective ability and wear resistance and poor adhesion to the substrate, especially to steel. This paper describes certain processes that were tested, as well as two plating techniques for producing black wear-resistant coatings with a high protective ability on chemically deposited nickel-phosphorus layers. It was found that the treatment of black coatings with nitric acid and anodic treatment with phosphoric acid lead to increased roughness and porosity of the coatings. Nickel oxides NiO, Ni2O3, as well as nickel phosphates were found in the final coating. It was established that heat treatment enhances the wear resistance and protective ability of black nickel-phosphorus coatings and they even outperform black chrome and nickel electroplated coatings. The properties of the resulting coatings were studied using an OLYMPUS LEXT4100 confocal laser microscope, a Taber Elcometer 5135 rotary abraser, an EDX-7000 energy-dispersive spectrometer, an HB100 Auger microscope (Vacuum Generators, GB), and a 410 Quick Start Guide reflectometer. The paper demonstrates the possibility of using a safer chemical nickel plating process instead of chromium and nickel electroplating processes. The authors would like to thank the Mendeleev Shared Knowledge Centre for support of this research. |
References |
1. Gigandet M. P., Faucheu J., Tachez M. Formation of black chromate conversion coatings on pure and zinc alloy electrolytic deposits: role of the main constituents. Surface and Coatings Technology. 1997. Vol. 89. pp. 285–291. 2. Electroplated coatings in mechanical engineering. Reference book. Ed. by M. A. Shluger. Moscow : Mashinostroenie, 1985. 240 p. 3. Vashchenko S. V., Solodkova L. N., Kudryavtsev V. N. Certain physicomechanical properties of chromium coatings produced in chromate electrolytes with organic additives. Galvanotekhnika i obrabotka poverkhnosti. 2000. Vol. 8, No. 3. pp. 25–28. 4. Meshalkin V. P., Abrashov A. A., Vagramyan T. A., Grigoryan N. S. et al. Development of composition and investigation of properties of a new, environmentally friendly molybdenum-containing decorative protective conversion coating on zinс-plated surfaces. Doklady Chemistry. 2018. Vol. 480, No. 5. pp. 555–558. 5. Aleshina V. Kh., Abrashov A. A., Grigoryan N. S., Vagramyan T. A. Passivation of zinc coatings in molybdate solutions. Tsvetnye Metally. 2021. No. 10. pp. 20–25. DOI: 10.17580/tsm.2021.10.02. 6. Abrashov A. A., Grigoryan N. S., Vagramyan T. A., Mardashova Ya. A. et al. Low-temperature black phosphate coating process. Galvanotekhnika i obrabotka poverkhnosti. 2015. Vol. XXIII, No. 4. pp. 38–42. 7. Abrashov A. A., Grigoryan N. S., Tolmachev Ya. V., Asnis N. A. Protective and decorative treatment of low-carbon steels. Chernye Metally. 2020. No. 10. pp. 21–26. 8. Long Z. L., Zhou Y. C., Xiao L. Characterization of black chromate conversion coating on the electrodeposited zinc – iron alloy. Applied Surface Science. 2003. Vol. 218. pp. 123–136. 9. Fomichev V. T., Ozerov A. M. Chrome plating with organic additives. Hard wear-resistant electroplated coatings. Moscow : MDNTP, 1980. p. 26. 10. Moskvicheva V. V., Fomichev V. T., Ostroukhov S. B., Ozerov A. M. Intensified chrome plating at low temperatures. Hard wear-resistant electroplated coatings. Moscow : MDNTP, 1980. p. 58. 11. Electroplating. Reference book. Ed. by A. M. Ginberg. Moscow : Metallurgiya, 1987. 736 p. 12. Gardner A., Sharf D. Effective replacement of chromate passivation solutions with zinc and its alloys. Galvanotekhnika i obrabotka poverkhnosti. 2002. Vol. Х, No. 4. p. 39. 13. Solodkova L. N., Kudryavtsev V. N. Chrome electroplating. Ed. by V. N. Kudryavtsev. Moscow : Globus, 2007. p. 191. 14. ISO 9227:2017. Corrosion tests in artificial atmospheres — Salt spray tests. 26 p. 15. Solodkova L. N., Adzhiev B. U., Solovieva Z. A. Electrochemistry. 1973. Vol. IX, No. 5. p. 593. 16. Abbasi-Amandi A., Parvini Ahmadi N., Ojaghi-Ilkhchi M., Alinezhadfar M. Physical and electrochemical behavior of black nickel coatings in presence of KNO3 and imidazole additives. Journal of Electroanalytical Chemistry. 2021. Vol. 893. p. 115310. 17. Rajendra Prasad A., Chitradevi S., Vignesh T., Muruganandam D. et al. Experimental exploration on emissivity of black chromium coating thickness analysis on copper alloy surface. Materials Today: Proceedings. 2021. Vol. 37. Part 2. pp. 137–141. 18. Stankiewicz A., Kefallinou Z., Mordarski G., Jagoda Z. et al. Surface functionalisation by the introduction of self-healing properties into electroless Ni – P coatings. Electrochimica Acta. 2019. Vol. 297. pp. 427–434. |