A process for fabricating metal-polymer composite materials by impregnating porous aluminum and magnesium with a rapidly solidifying filling plastic is suggested. Tests of mechanical and operating properties of the metal-polymer composite materials are performed.
Similar content being viewed by others
References
N. A. Adamenko, G. V. Agafonova, and A. V. Fetisov, Polymer Composite Materials, A Study Aid [in Russian], VolgGTU, Volgograd (2016), 96 p.
V. M. Buznik and G. Yu. Yurkov, “Application of fluoropolymer materials in tribology: state of the art and prospects,” Vopr. Materialoved., No. 4(72), 133 – 149 (2012).
V. M. Buznik, V. M. Fomin, and A. P. Alkhimov, Metal-Polymer Nanocomposites (Production, Properties, Application) [in Russian], Izd. SO RAN, Novosibirsk (2005), 260 p.
A. P. Semenov and Yu. E. Savinskii, Metal-Fluoroplastic Bearings [in Russian], Mashinostroenie, Moscow (1976), 192 p.
N. A. Adamenko, Yu. P. Trykov, E. P. Sedov, et al., “Metalfluoroplastic composite materials for plain slideways with enhanced bearing capacity in friction units,” Konstr. Kompoz. Mater., No. 2, 48 – 52 (2003).
A. I. Kovtunov, D. A. Semistenov, Yu. Yu. Khokhlov, and T. V. Chermashentseva, “Thermal conditions for forming foam aluminum by filtration through water-soluble salts,” Liteishch. Rossii, No. 6, 43 – 45 (2011).
A. B. Finkel’shtein, Fabrication of porous castings from aluminum alloys by impregnation,” Litein. Proizvod., No. 5, 13 – 15 (2010).
A. I. Kovtunov, D. A. Semistenov, Yu. Yu. Khokhlov, and T. V. Chermashentseva, “A study of the processes of formation of foam aluminum by filtration through water-soluble salts,” Tekhnol. Legk. Splav., No. 4, 74 – 78 (2011).
A. I. Kovtunov, Yu. Yu. Khokhlov, S. V. Myamin, and D. A. Semistenov, “Mechanical and operating properties of titanium/foam aluminum layered composite materials,” Materialovedenie, No. 8, 44 – 48 (2019).
A. G. Korotkikh, Thermal Conductivity of Materials, A Study Aid [in Russian], Izd. Tomsk. Politekh. Univ., Tomsk (2011).
M. A. Mikheev and I. M. Mikheeva, Fundamentals of Heat Transfer [in Russian], Énergiya, Moscow (1977), 344 p.
V. B. Balyakin, A. V. Lavrin, A. P. Baturin, and T. A. Gerasimova, “A study of the coefficient of friction of Fluoroplastic-4 at different quality of surface preparation,” Izv. Samarsk. Nauch. Tsentra Ross. Akad. Nauk, 19(4), 33 – 36 (2017).
A. I. Ermilova, I. N. Mamonov, E. V. Kalugina, and A. N. Kryuchkov, “Heat-conducting polymer materials,” Polimer. Truby, No. 1(51), 1 – 6 (2016).
Author information
Authors and Affiliations
Corresponding author
Additional information
Translated from Metallovedenie i Termicheskaya Obrabotka Metallov, No. 10, pp. 30 – 34, October, 2021.
Rights and permissions
About this article
Cite this article
Kovtunov, A.I., Khokhlov, Y.Y. & Myamin, S.V. Properties of Metal-Polymer Composite Materials with Aluminum and Magnesium Matrix. Met Sci Heat Treat 63, 547–551 (2022). https://doi.org/10.1007/s11041-022-00726-9
Published:
Issue Date:
DOI: https://doi.org/10.1007/s11041-022-00726-9