Heat-resistant antifriction carbon plastics for pumps sliding bearings of ship energy stations, thermal and nuclear power plants

The paper summarizes experience of development and application of high speed sliding bearings for centrifugal pumps of ship energy units, thermal electric stations, nuclear power plants. Sliding bearings work with overheated water at temperatures 200° Сand sliding velocities 20–40 m/s. Unlike metals, these sliding bearings don’t need additional oil lubrication. Two antifriction carbon plastics, namely phenolic type FUT-B and new one polyphenylene sulfide type UPFS are discussed.

1. Bakhareva, V.E., Nikolaev, G.I., Sovremennye mashinostroitelnye materialy. Nemetallicheskie materialy[Modern machine-building materials. Non-metallic materials]: Reference book, I.V. Gorynin, A.S. Oryshchenko, (Eds.), St Petersburg: Professional, 2012.

2. Blau, P.J., Friction Science and Technology. From Concepts to Application (Mechanical Engineering), New York: CRC PRESS, 2008.

3. Bakhareva, V.E., Nikolaev, G.I., Oryshchenko, A.S., Antifriktsionnye ugleplastiki dlia uzlov treniya skolzheniya [Antifriction carbon plastics for sliding friction assemblies], Voprosy Materialovedeniya, 2012, No 4 (72), pp. 15–33.

4. Bakhareva, V.E., Oryshchenko, A.S., Ugleplastiki dlia detaley uzlov treniya oborudovaniya, rabotayuschego v usloviyakh Arktiki i Kraynego Severa[Carbon plastics for parts of friction units of equipment operating in the Arctic and the Far North], St Petersburg: Professional, 2017.

5. Oryshchenko, A.S., Bakhareva, V.E., Anisimov, A.V., Lishevich, I.V., Bearings of sliding from high-strength antifriction carbon plastic in shipbuilding and power machine building, Bulletin of machine building. 2012. No 5, pp. 29–33.

6. Bogun, V.S., Bakhareva, V.E., Anisimov, A.V., Podshipniki skolzheniya iz antifriktsionnykh ugleplastikov dlia tsentrobezhnykh nasosov energeticheskikh ustanovok [Bearings of sliding from antifriction carbon plastics for centrifugal pumps of power plants], Voprosy Materialovedeniya, 2010, No 1 (61), pp. 60–66.

7. Goriacheva, I.G., Anisimov, A.V., Bakhareva, V.E., Lishevich, I.V., Portyankin, P.O., Vysokoskorostnye podshipniki skolzheniya izantifriktsionnykh ugleplastikov, rabotayushchikh pri temperaturakh do 200°C, dlia nasosov i parovykh turbin. Problemy importozameshcheniya [Highspeed sliding bearings made of antifriction carbon plastic, operating at temperatures up to 200°C, for pumps and steam turbines. Problems of import substitution], Nasosy. Turbiny. Sistemy, 2015, No 4 (17), pp. 3–15.

8. Anisimov, A.V., Bakhareva, V.E., Lishevich, I.V., Nikitina, I.V., Opyt otechestvennoy shkoly po sozdaniyu podshipnikov iz antifriktsionnykh ugleplastikov dlia nasosov, turbin, armatury. Problemy importozameshcheniya [The experience of the national school for the creation of bearings from antifriction carbon plastic for pumps, turbines, fittings. Problems of import substitution], Nasosy. Turbiny. Sistemy, 2015. Part 1, No 1 (14), pp. 3–15; Part 2, No 2 (15), pp. 3–11.

9. Bakhareva, V.E., Lishevich, I.V., Sargsyan, A.S., Novy teplostoiky antifriktsionny ugleplastik na osnove polifenilensulfidadlia uzlov treniya, rabotayuschikh bez smazki i so smazkoy peregretoy vodoy [New heat-resistant antifriction carbon fiber reinforced plastic based on polyphenylene sulfide for friction units operating without lubrication and lubricated with superheated water], Voprosy Materialovedeniya, 2012, No 4 (72), pp. 160–170.

10. Yudin, V.E., Svetlichny, V.M., Shumakov A.N., et al., Morphology and mechanical properties of carbon fiber reinforced composites based on semicrystal-line polyimides modified by carbon nanofibers, Composites: A, 2008, V. 39, No 1, pp. 85–90.

11. Posharnikov, F.V., Usikov A.V., Serebryansky, A.I., Issledovanie vraschatelnogo protsessa treniya v podshipnikakh skolzheniya lesoobrabatyvayuschego oborudovaniya[Investigation of the rotational process of friction in sliding bearings of forestry equipment], Lesotekhnichesky zhurnal, 2011, No 2, pp.4–6.

12. Bogun, V.S., Vasiliev, V.A., Podshipniki skolzheniya iz antifriktsionnykh ugleplastikov dlia nasosov energeticheskikh ustanovok [Sliding bearings of antifriction carbon plastic for pumps of power plants], Elektricheskie stantsii, 2016, No 9, pp. 45–48.