Abstract
Increasing operating life of current equipment, reducing its energy capacity, as well as the intensification of technological processes in mechanical engineering is closely related to the time-effective development of new lubricants. Analysis of domestic and foreign experience shows that improving lubricant materials by means of introduction of LC-additives providing the ordered state of the lubricant layers in a friction zone is a promising approach for a number of these tasks. The above-mentioned results of theoretical and experimental laboratory studies of tribophysical properties of liquid-crystal nanomaterials generally bring hope that their high lubricating properties will present also in friction units of real machines and mechanisms both in the direct applicability and as additives for traditional lubricating and self-lubricating materials.
This is a preview of subscription content, log in via an institution to check access.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
References
E.V. Ryzhov, Technological Methods of Improving Wear Resistance of Machine Parts (Navukova Dumka, Kiev, 1984), p. 320 (in Russian)
V.A. Vladimirov, Trans. Res. Navy Inst. 227, 34–44 (1977) (in Russian)
V.A. Vladimirov, L.M. Pekar, Calculation of duration and conditions of running-in of the marine diesel engine cylinder-piston group. Dvigatelestroenie 10, 51–53 (1983) (in Russian)
L. Rodig, V. Bazika, Prisrevek k Probiematice Sledovani Zabehu Naftovych Motoru, Techniky Sbornik. VUCKD, Praga, 41, 3–5 (1979)
V.N. Romanov, G.I. Romanova, Selection of the method of factory running-in of diesel engines. Dvigatelestroenie 10, 53–55 (1984) (in Russian)
S.G. Arabjan, I.A. Kholomonov, Improvement of ICE running-in process. Dvigatelestroenie 8, 43–45 (1981) (in Russian)
MKh Nigamatov, Accelerated running-in of engines. Tehnika v Selskom Hozjajstve 1, 12–14 (1978) (in Russian)
G.J. Hillingman, S. Barrow, Shipboard in Vestigations with Selected Juels of Tomorrow, 14-th International Congress on Combustion Engines, Helsinki, D 63. (1981)
Running-in of Tractor Engines. Trans. Nat. Autotractor Inst. 216, 54–56 (1972) (in Russian)
A.M. Kuliev, Chemistry and Technology of Additives to Oils and Fuels, 2nd edn. (Himija, Leningrad, 1985), p. 185 (in Russian)
M.Kh. Nigamatov, Accelerated Running-in of Overhauled Engines. (Kolos, Moscow, 1984), p. 178 (in Russian)
B.I. Kupchinov, S.A. Ermakov, V.P. Parkalov, V.G. Rodnenkov, Study of the effect of mesogenous additive to greases on the friction coefficient kinetics. Trans. Belarus. Acad. Sci. 33(4), 340–343 (1989) (in Russian)
V.P. Dofman, Additive to motor oils. Za Rulem 3, 20–21 (1991) (in Russian)
M.A. Gusev, Chem. Technol. Fuels Oils 5, 30–32 (1985) (in Russian)
V.I. Bobrov, G.A. Tjuneva, Mesomorphism of peaches of distillate residues of diesel fuels and oils, in Structure and Properties of Liquid Crystals, Ivanovo (1989), pp. 84–91 (in Russian)
TS 25-1470.002-82, Special Salve-Like Diamond Paste. (1982), p. 6 (in Russian)
V.I. Kolesnikov, S.F. Ermakov, A.P. Sychev, Triboinduced adsorption of liquid-crystal nanomaterials under friction interaction of solids. Dokl Phys 54(6), 269–272 (2009)
A.A. Syslov, S.F. Ermakov, Liquid Crystal Additives in Finish Materials. Mater. Technol. Tools. 2, 87–88 (1998) (in Russian)
A.A. Syslov, B.I. Kupchinov, S.F. Ermakov, A.A. Baranovskii, A.T. Kozlovskii, Pat. 2210 C1 BY, C 09 G 1/02. The Composition for Polishing. No. 950789. Filed 21.07.95. Published 30.06.98
B.I. Kupchinov, S.F. Ermakov, E.D. Beloenko, Biotribology of Synovial Joints (Vedy, Minsk, 1997), p. 272 (in Russian)
B.I. Kupchinov, S.F. Ermakov, V.G. Rodnenkov, E.D. Beloenko, O.L. Eismont, Some results of studies in liquid-crystalline state of synovial lubricant in joints. J. Friction Wear 23(3), 69–75 (2002)
S. Ermakov, A. Beletskii, O. Eismont, V. Nikolaev, Liquid Crystals, Biotribology. Synovial Joint Treatment (Springer Cham, Heidelberg, New York, Dordrecht, London, 2016), p. 211
A.S. Akhmatov, Molecular Physics of Boundary Friction (Fizmatgiz, Moscow, 1963), p. 472 (in Russian)
S.F. Ermakov, Tribology of Liquid-Crystalline Nanomaterials and systems (Belarusian Nauka, Minsk, 2012), p. 380 (in Russian)
V.V. Sinitsyn, Selection and Application of Plastic Greases (Khimiya, Moscow, 1974), p. 342 (in Russian)
V.V. Sinitsyn, Plastic Greases in the USSR (Khimiya, Moscow, 1984) p. 276 (in Russian)
V.V. Mulyarchik, V.G. Konstantinov, V.N. Danishevskii, S.F. Ermakov, R.A. Shuldykov, A.L. Bogdanov, A.P. Svirskii, Resp. Belarus’ Patent 15897, MPK8 S 10 M 101/02, Official Bull. (2012), no. 3, pp. 134–135 (in Russian)
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
Copyright information
© 2018 Springer International Publishing AG
About this chapter
Cite this chapter
Ermakov, S.F., Myshkin, N.K. (2018). Practical Application of Liquid-Crystal Nanomaterial in Engineering and Medicine. In: Liquid-Crystal Nanomaterials. Springer Series in Materials Science, vol 267. Springer, Cham. https://doi.org/10.1007/978-3-319-74769-9_5
Download citation
DOI: https://doi.org/10.1007/978-3-319-74769-9_5
Published:
Publisher Name: Springer, Cham
Print ISBN: 978-3-319-74768-2
Online ISBN: 978-3-319-74769-9
eBook Packages: Chemistry and Materials ScienceChemistry and Material Science (R0)