Russian Federation
Voronezh, Voronezh, Russian Federation
The antifrictional pressed wood is used in mechanical engineering for production of knots of the friction working at self-lubricant. The described antifrictional material has considerable advantages over metal and polymeric antifrictional materials, especially at operation of cars in the conditions of subzero temperatures.
friction knot, bearing, pressed wood, antifrictional material, mechanism
1. Inshakov A.P. Perspektivnoe napravlenie diagnostirovaniya podshipnikovogo uzla turbokompressora [Tekst] / A.P. Inshakov, D.S. Mochalin, M.S. Kurbakova. Al´ternativnye istochniki energii v transportno-tekhnologicheskom komplekse: problemy i perspektivy ratsional´nogo ispol´zovaniya. 2015. T. 2. № 1. S. 101-103. DOI: 10.12737/13861.
2. Al-Haddad J.M. Chemical responses to modified lignin composition in tension wood of hybrid poplar (populus tremula × populus alba) [Text] / J.M. Al-Haddad, F.W. Telewski, K.-Y. Kang, S.D. Mansfield. Tree Physiology. 2013. Vol. 33. no. 4. pp. 365-373. DOI: 10.1093/treephys/tpt017.
3. Shamaev V.A. Khimiko-mekhanicheskoe modifitsirovanie drevesiny [Tekst] : monografiya / V.A Shamaev. Voronezh, 2003. 260 s.
4. Belokurov V.P. Termo-vlagouprugost´ podshipnikov skol´zheniya iz DM pri ispol´zovanii zadachi Lame [Tekst] / V.P. Belokurov. Lesotekhnicheskiy zhurnal. 2015. T. 5. № 2. S. 104-110. DOI: 10.12737/111984
5. Duanmu J. Hygromechanical properties of composites of crosslinked allylglycidyl-ether modified starch reinforced by wood fibres [Text] / J. Duanmu, E.K. Gamstedt, A. Rosling. Composites Science and Technology. 2007. Vol. 67. no. 15-16. pp. 3090-3097. DOI: 10.1016/j.compscitech.2007.04.027
6. Temiz A. Effect of accelerated weathering on surface chemistry of modified wood [Text] / A. Temiz, N. Terziev, M. Eikenes, J. Hafren. Applied Surface Science. 2007. Vol. 253. no. 12. pp. 5355-5362. DOI: 10.1016/j.apsusc.2006.12.005.
7. Aksenov A.A. Vliyanie otritsatel´nykh temperatur na tverdost´ pressovannoy drevesiny [Tekst] / A.A. Aksenov. Izvestiya vysshikh uchebnykh zavedeniy «Lesnoy zhurnal». 2010. №6. S. 133-137.
8. Aksenov A.A. Issledovaniya zavisimosti tribotekhnicheskikh svoystv sil´no nagruzhennykh podshipnikov iz modifitsirovannoy drevesiny [Tekst] / A.A. Aksenov, S.V. Malyukov. Lesotekhnicheskiy zhurnal. 2016. T. 6. № 1 (21). S. 168-185. DOI: 10.12737/18740
9. Aksenov A.A. Zavisimost´ tverdosti pressovannoy drevesiny ot stepeni uplotneniya pri otritsatel´nykh temperaturakh [Tekst] / A.A. Aksenov. Voronezhskiy nauchno-tekhnicheskiy vestnik. 2013. №3(5). S. 23-30.
10. Patent RF №2491162. Antifriktsionnaya pressovannaya drevesina dlya izgotovleniya detaley treniya. Zayavleno 23.03.2012; opubl. 27.08.2013; byul. №24. 4 s.
