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The mechanism of interaction between natural laminar hydrosilicates and friction surfaces

  • Reliability, Durability, and Wear Resistance of Machines and Constructions
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Abstract

Analytical results are presented regarding how powder-like laminar hydrosilicates of the serpentinite type interact with the surfaces of components in tribointerfaces. The greatest amount of attention is paid to the processes of the formation of protective cermet layers on friction surfaces due to the atomic and molecular structure of laminar hydrosilicates.

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References

  1. Marinich, T.L., Titov, K.M., Ksenofontova, N.N., et al., RF Patent no. 2043393. S10M 125/04, Byull. Izobret, 1995, no. 25.

  2. Lavrov, Yu.G. and Polovinkin, V.N., RF Patent no. 217626, Byull. Izobret, 2001, no. 33.

  3. Pogodaev, L.I. and Kuz’min, V.M., Strukturno-energeticheskie modeli nadezhnosti materialov i detalei mashin (Structural-Energy Reliability Models of Materials and Machine Elements), St.Petersburg: Akademiya transporta RF, 2006.

    Google Scholar 

  4. Pogodaev, L.I., How Friction Geomodifiers Influence on Operation Capacity of Tribological Conjunctions, Problemy mashinostroeniya i nadezhnosti mashin, 2005, no. 1, pp. 58–67.

  5. Pogodaev, L.I., Petrov, V.M., and Shabanov, A.Yu., Some Results of Research of How Lubricating Compositions with Friction Geomodifiers Influence on Operation Capacity of Tribological Conjunctions under Laboratory and Full-Scale Conditions, Problemy mashinostroeniya i nadezhnosti mashin, 2005, no. 3, pp. 27–41.

  6. Buyanovskii, I.A., Gostev, Yu.V., Drozdov, Yu.N., et al., RF Patent no 2237704, Byull. Izobret., 2004, no. 28.

  7. Kuz’min, V.N. and Pogodaev, L.I., RF Patent no. 2247768 S1 S YuM 141/02, Byull. Izobret, 2005, no. 7.

  8. Lazarev, S.Yu., Mashiny s anomal’no nizkim treniem, (Machines with Abnormally Low Friction), St.Petersburg: Izd-vo Voenno-morskoi akademii im. adm. N.G. Kuznetsova, 2004.

    Google Scholar 

  9. Afanas’ev, I.S., Zakoldaev, Yu.A., Kalinin, O.M., et al., Hydrogen-Helium Power Engineering of Laminated Silicates (Topology-Metric Model), in Fundamental’nye problemy estestvoznaniya (Fundamental Problems of Natural Science), St.Petersburg: RAN, 2000, pp. 403–408.

    Google Scholar 

  10. Marinich, T.L., Mashkov, Yu.K., and Chechukov, N.T., Stable-State System of Tribooperating, Tr. mezhdunar. nauch. konf. “Trenie, iznos i smazochnye materialy” (Proc. Intern. Scientific Conf. “Friction, Wear and Lubricants”), Tashkent, 1985, vol. II, pp. 311–313.

    Google Scholar 

  11. Revnivtsev, V.I., Marinich, T.L., and Mal’tseva, E.G., Microhydrodynamic Representations of Selective Transfer, Tr. mezhdunar. nauch. konf. “Trenie, iznos i smazochnye materialy” (Proc. Intern. Scientific Conf. “Friction, Wear and Lubricants”), Tashkent, 1985, vol. II, pp. 314–319.

    Google Scholar 

  12. Resurso- i energosberegayushchie tekhnologii XXI veka. Sbornik normativnykh dokumentov, aktov i protokolov ispytanii (Lifetime and Energy-Saving Technologies of XXI Century. Collection of Normative Documents, Circulars and Test Record Sheets), Moscow: Izd-vo “Nanoprom”, 2007.

  13. Goryacheva, N.G., Kurbatkin, I.I., Ozerskii, O.N., et al., Research of SEM Chemical Composition and Structure of Surface Layers of the Samples, Tested Using the Metal Synthesizer “Forsan”, Technical report IPM RAS no. 43/07 Moscow, 2007.

  14. Marinich, T.L., Our Tomorrow is Reflected in Nature Slickensides, Initsiativa, St.Petersburg, 1994, no.1, pp. 7–15.

  15. Kalinin, O.M., Marinich, T.L., et al., Exciton Superfluidity in Laminated Chained Silicates as a Technology of Energy Unloading of Friction, Burning and Hardening Processes, Initsiativa, St.Petersburg: NTO “Konversionnye initsiativy”, 1998, no. 8, pp. 18–25.

    Google Scholar 

  16. Nikitin, I.V., RF no. 2135638 S1 RU S10M 125/00, Byull. Izobret, 1999, no. 24.

  17. Kuz’min, V.N. and Pogodaev, L.I., RF Patent no. 20309968 RF S1, Byull. Izobret, 2007, no. 33.

  18. Bollman, W., Spreadborough. Action at Graphite as a Lubricant, Nature, 1960, vol. 187, no. 4718, p. 29.

    Article  Google Scholar 

  19. Poverkhnostnye sloi i vnutrennie granitsy razdela v geterogennykh materialakh (Surface Layers and Internal Boundaries in Heterogeneous Materials), Novosibirsk: Izd-vo SO RAN, 2006.

  20. Khrenov, A.Yu., Utkin, N.V., Kazarezov, V.V., et al., RF Patent no. 2057257 S1 RU 6F16C33/14, Byull. Izobret., 1997, no. 9.

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Authors and Affiliations

  1. Sankt-Petersburg, Russia

    L. I. Pogodaev, I. A. Buyanovskii, E. Yu. Kryukov, V. N. Kuz’min & V. V. Usachev

Authors
  1. L. I. Pogodaev
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  2. I. A. Buyanovskii
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  3. E. Yu. Kryukov
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  4. V. N. Kuz’min
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  5. V. V. Usachev
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Additional information

Original Russian Text © L.I. Pogodaev, I.A. Buyanovskii, E.Yu. Kryukov, V.N. Kuz’min, V.V. Usachev, 2009, published in Problemy Mashinostroeniya i Mashin, 2009, No. 5, pp. 71–81.

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Pogodaev, L.I., Buyanovskii, I.A., Kryukov, E.Y. et al. The mechanism of interaction between natural laminar hydrosilicates and friction surfaces. J. Mach. Manuf. Reliab. 38, 476–484 (2009). https://doi.org/10.3103/S1052618809050124

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  • DOI: https://doi.org/10.3103/S1052618809050124

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