GRAMOTA Publishers suggests publishing your scientific articles in periodicals
Pedagogy. Theory & PracticePhilology. Theory & PracticeManuscript

Archive of Scientific Articles

SOURCE:   Almanac of Modern Science and Education. Tambov: Gramota, 2017. № 3. P. 63-65.
SCIENTIFIC AREA: Technical Sciences
To Publish Article in the Journal | To show issue content | To show all articles in section | Subject Index

License Agreement on scientific materials use.

INSULATION OF SHIP ELECTRICAL MACHINES IN THE PROCESS OF SHIP REPAIR. ELECTRICAL INSULATING MATERIALS

Mustafaev Eskender Aiderovich, Kravchenko Nikita Vladimirovich
Admiral Ushakov State Maritime University in Novorossisk


Abstract. The article deals with the impact of such factors as air humidity, temperature variations, specific peculiarities of marine climate on electrical insulating materials. In practice, this leads to irreversible deterioration of electrical and mechanical characteristics of cable products, to their worthlessness and, in certain cases, to short circuit. Data on varieties of dielectrics, their properties and characteristics are presented. The authors show correlation between influence of natural factors and strength of the material on the basis of scientific data and practical tests.
Key words and phrases: электроизоляционное оборудование, электроизоляционные материалы, диэлектрики, агрегатное состояние, диэлектрическая проницаемость, электропроводимость, electrical insulating equipment, electrical insulating materials, dielectrics, state of aggregate, dielectric permittivity, electrical conductivity.
Open the whole article in PDF format. Free PDF-files viewer can be downloaded here.

 

References:
  1. Borodulin V. N. Dielektriki. M.: Izd-vo MEI, 1998. 60 s.
  2. Vlasov A. B. Issledovanie izolyatsii sudovykh elektricheskikh mashin v protsesse ekspluatatsii i sudoremonta // Vestnik Moskovskogo gosudarstvennogo tekhnicheskogo universiteta im. N. E. Baumana. 2008. T. 11. № 3. S. 475-482.
  3. Kablov E. N. Strategicheskie napravleniya razvitiya materialov i tekhnologii ikh pererabotki na period do 2030 goda // Aviatsionnye materialy i tekhnologii. 2012. № S. S. 7-17.
  4. Kablov E. N., Grashchenkov D. V., Isaeva N. V., Solntsev S. S., Sevast'yanov V. G. Perspektivnye vysokotemperaturnye keramicheskie kompozitsionnye materialy // Rossiiskii khimicheskii zhurnal. 2010. T. LIV. № 1. S. 20-24.
  5. Kuimov I. E., Papkov A. V., Pak V. M. Perspektivy sozdaniya i vnedreniya novykh elektroizolyatsionnykh materialov // Izolyatsiya-2002: trudy Mezhdunarodnoi nauchno-tekhnicheskoi konferentsii. SPb., 2002. № 6. S. 5-10.
  6. Red'ko V. V. Razrabotka metodov i sredstv elektroiskrovogo tekhnologicheskogo kontrolya izolyatsii kabel'nykh izdelii. Tomsk, 2013. 39 s.
  7. Red'ko V. V., Red'ko L. A. Ustroistvo dlya ispytaniya polimernoi izolyatsii kabelya. Svid. na PM 45834 Rossiya. MKI7 G01R 31/14. Zayavleno 27.12.2004. Opubl. 27.05.2005. Byul. № 15. 3 s.
  8. Sokolov I. I., Raskutin A. E. Ugleplastiki i stekloplastiki novogo pokoleniya // Trudy VIAM. 2013. № 4.
  9. Solov'ev Yu. V. Kontrol' tekhnicheskogo sostoyaniya zashchishchennykh provodov linii elektroperedachi v usloviyakh kompleksnogo vozdeistviya ekspluatatsionnykh faktorov. SPb., 2015. 25 s.
  10. Fadeeva G. A., Fedin V. T. Proektirovanie raspredelitel'nykh elektricheskikh setei: ucheb. posobie / pod obshch. red. V. T. Fedina. Minsk: Vysh. shk., 2009. 365 s.
  11. Shekhovtsov V. P. Spravochnoe posobie po elektrooborudovaniyu i elektrosnabzheniyu. M.: Forum; Infra-M, 2006. 136 s.
  12. Shutov D. A., Sitanov D. V. Protsessy mikro- i nanotekhnologii: laboratornyi praktikum. Ivanovo, 2006. Ch. 2. 135 s.
  13. http://www.nanoprotech.ru/ (data obrashcheniya: 12.04.2017).

To Publish Article in the Journal | To show issue content | To show all articles in section | Subject Index

© 2006-2020 GRAMOTA Publishers

site development and search engine optimization (seo): krav.ru