The Effect of Superdispersed Diamond Particles on the Structure and Properties of Electrolytic Nickel Coatings

Issues » Volume 38, Issue 4

V. V. Tytarenko, V. A. Zabludovs’kyy

Dnipropetrovsk National University of Railway Transport named after Academician V. Lazaryan, 2 Lazaryana Str., 49010 Dnipropetrovsk, Ukraine

Received: 03.10.2015; final version - 06.02.2016. Download: PDF

The paper considers the influence of the dispersed particles of ultrafine diamonds on the structure and performance of the nickel-based composite electrolytic coatings obtained by the continuous and pulsed currents. The results show that the pulsed modes of electrodeposition forms fine-grained, close-packed coatings having a non-equilibrium structure of growth with a larger density of ultrafine diamond particles in coating that increases the microhardness and wear resistance of nickel-composite electroplating coatings.

Key words: ultrafine diamond particles, nickel-based composite coating, structure, mechanical properties.

URL: http://mfint.imp.kiev.ua/en/abstract/v38/i04/0519.html

DOI: https://doi.org/10.15407/mfint.38.04.0519

PACS: 68.35.Gy, 68.55.J-, 68.55.Nq, 68.60.Bs, 81.05.uj, 81.15.Pq, 81.40.Pq

Citation: V. V. Tytarenko and V. A. Zabludovs’kyy, The Effect of Superdispersed Diamond Particles on the Structure and Properties of Electrolytic Nickel Coatings, Metallofiz. Noveishie Tekhnol., 38, No. 4: 519—529 (2016) (in Russian)

REFERENCES

V. Yu. Dolmatov and G. K. Burkat, Sverkhtverdye Materialy, No. 1: 84 (2000) (in Russian).
V. Yu. Dolmatov, Ul’tradispersnye Almazy Detonatsionnogo Sinteza (Saint-Petersburg: Izdatel’stvo SPBGPU: 2003) (in Russian).
G. K. Burkat, T. Fujimura, V. Yu. Dolmatov, E. A. Orlova, and M. V. Veretennikova, Diamond and Related Materials, 14, No. 8: 1761 (2005).
G. K. Burkat, V. Yu. Dolmatov, E. Osawa, and E. A. Orlova, Sverkhtverdyye Materialy, No. 2: 43 (2010) (in Russian).
S. Zhang, D. Sun, Yo. Fu, and H. Du, Surf. Coat. Technol. 167: 113 (2003). Crossref
L. Wang, Y. Gao, Q. Xue, H. Liu, and T. Xu, Mater. Sci. Eng. A, 390: 313 (2005). Crossref
V. V. Dudkina, Fizyka i Khimiya Tverdoho Tila, 14, No. 3: 644 (2013) (in Ukrainian).
V. O. Zabludovs’kyy, V. V. Dudkina, and E. P. Shtapenko, Nauka ta Progres Transportu. Visnyk Dnipropetrovs’kogo Natsional’nogo Universytetu Imeni Akademika V. Lazaryana, 47, No. 5: 70 (2013) (in Ukrainian).
V. O. Zabludovs’kyy, E. P. Shtapenko, V. V. Dudkina, and O. S. Tereshchenko, Sposib Otrymannya Nikelevykh Gal’vanichnykh Pokryttiv, Modyfikovanykh Nanoalmazamy: Ukrainian Patent No. 87842. C25D15/00 (Publ. February 25, 2014), Bull. No. 4 (in Ukrainian).
V. O. Zabludovs’kyy, E. P. Shtapenko, and V. V. Dudkina, Sposib Osadzhennya Kompozytsiynykh Elektrolitychnykh Pokryttiv: Ukrainian Patent No. 101121. C25D 15/00, B82B 1/00 (Publ. August 25, 2015), Bull. No. 16 (in Ukrainian).
V. V. Dudkina, V. A. Zabludovskiy, and E. F. Shtapenko, Metallofiz. Noveishie Tekhnol., 37, No. 5: 713 (2015) (in Russian). Crossref
S. S. Gorelik, Yu. A. Skakov, and L. N. Rastorguev, Rentgenograficheskiy i Elektronno-Opticheskiy Analiz (Moscow: MISiS: 1994) (in Russian).