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This article presents the results of a study of an alternative method for reducing friction losses in the cylinder-piston group of internal combustion engines based on an experimental installation, taking into account changes in the real state of the working surfaces of the mating parts of the piston ring-cylinder pair depending on the operating time. The factors with a progressive effect on the operation of engine friction units as they wear out are studied, and the degree of their influence on wear is estimated. A model of the friction unit of a cylinder-piston group (piston-piston ring pair) of an internal combustion engine based on a solid antifriction material operating without the use of a lubricating fluid is developed and investigated. Comparative results of determining the wear indicators of sealing rings by various methods of wear control are presented. A method for predicting the resource and the real state of the engine is proposed.
Czasopismo
Rocznik
Tom
Strony
99--110
Opis fizyczny
Bibliogr. 24 poz.
Twórcy
autor
- West Kazakhstan Agrarian and Technical University named after Zhangir Khan; Zhangir Khan str., 51, 090009 Uralsk, Kazakhstan
autor
- Aktobe Regional University named after K.Zhubanov; 34 A. Moldagulova av., 030000 Aktobe, Kazakhstan
autor
- Aktobe Regional University named after K.Zhubanov; 34 A. Moldagulova av., 030000 Aktobe, Kazakhstan
autor
- Aktobe Regional University named after K.Zhubanov; 34 A. Moldagulova av., 030000 Aktobe, Kazakhstan
autor
- Aktobe Regional University named after K.Zhubanov; 34 A. Moldagulova av., 030000 Aktobe, Kazakhstan
Bibliografia
- 1. Chao, Cheng. Power Cylinder System for Internal Combustion Engines. 2017. 178 p. DOI: 10.5772/intechopen. 69762. Available at: https://www.intechopen.com/books/improvementtrends-for-internal-combustion-engines/power-cylinder-system-for-internalcombustion-engines.
- 2. Райков, И.Я. Испытания двигателей внутреннего сгорания. Москва: Высшая школа. 1975. 169 с. [In Russian: Raikov, I.Ya. Tests of internal combustion engines. Moscow: High School].
- 3. Bazhenov, Yu. & Kirillov, A. & Bazhenov, M. Examination of engine cylinder-piston group damages. In: IOP Conf. Series: Materials Science and Engineering. 2020. Vol. 896. Paper No. 012100. DOI: 10.1088/1757-899X/896/1/012100.
- 4. ГОСТ 27860-88. Детали трущихся сопряжений. Методы измерения износа. М. Государственный комитет СССР по управлению качеством продукции и стандартам (утвержден в Казахстане). Введен 1990.01.01. Москва: Государственный комитет СССР по стандартам, 1989. 30 с. [In Russian: Details of rubbing interfaces. Methods of wear measurement. Moscow: USSR State Committee for Product Quality Management and Standards (approved in Kazakhstan). Moscow: USSR State Committee on Standards].
- 5. Söderfjäll, M. Friction in Piston Ring - Cylinder Liner Contacts. Luleå: University of Technology. 2017. 223 p. ISBN: 978-91-7583-824-3. Available at: https://www.divaportal.org/smash/get/diva 2:1076831/ FULLTEXT01.pdf.
- 6. Anglin, D.L. Internal combustion engine. 2018. DOI: 10.1036/1097-8542.349500.
- 7. Halderman, J.D. Automotive Engines: Theory and Servicing. 9th ed. Pearson. 2018.
- 8. Momani, W. Influence of internal combustion engine parameters on gas leakage through the piston rings area. Modern Mechanical Engineering. 2017. Vol. 7(1). No. 27. P. 27-33. DOI: 10.4236/mme. 2017.71003.
- 9. Sharoglazov, B.A & Kuanyshev, M.K. & Podsedov, K.D. Calculation-analytical estimation of the working cycle parameters of the crankless and crank engines under similar loading conditions. In: ICIE 2018: Proceedings of the 4th International Conference on Industrial Engineering. Lecture Notes in Mechanical Engineering. 2019. Р. 109-118.
- 10. Заренбин, В.Г. & Колесникова, Т.Н. К расчету течения газов через кольцевые уплотнения ДВС с учетом динамики поршневых колец. ДВС. Всеукраинский научно-технический журнал. 2017. No. 1. P. 27-33. DOI: 10.20998/0419-8719.2017.1.06. [In Russian: Zarenbin, V.G. To the calculation of the flow of gases through the annular seals of the internal combustion engine, taking into account the dynamics of piston rings. Internal combustion engines. All-Ukrainian Scientific and Technical Journal].
- 11. Serdecki, W. Determination of compression ring wall pressure distribution. Journal of POLISH CIMAC. Energetic aspects. 2010. Vol. 5. No. 1. P. 171-178.
- 12. Serdecki, W. & Krzymień, P. Dependence of piston ring papametrs determination accuracy on the method of calculation. Journal of KONES, Powertrain and Transport. 2011. Vol. 18. No. 4. P. 435-441.
- 13. Собачкин, А.В. & et al. Исследование жаростойкости покрытия Ti-Al-Nb на модельных образцах поршневого алюминиевого сплава. Ползуновский вестник. 2020. No. 3. P. 88-92. DOI: 10.25712/ASTU.2072-8921.2020.03.016. [In Russian: Sobachkin, A.V. & et al. Investigation of the heat resistance of Ti-Al-Nb coating on model samples of piston aluminum alloy. Polzunovsky Bulletin].
- 14. Собачкин, А.В. & et al. Получение композиционных материалов системы Ti-Al-Nb методом высокотемпературного синтеза. Эволюция дефектных структур в конденсированных средах: сборник тезисов XVI Международной школы-семинара. 2020. P. 159-160. [In Russian: Sobachkin A.V. & et al. Obtaining composite materials of the Ti-Al-Nb system by high-temperature synthesis. Collection of abstracts of the XVI International Schoolseminar].
- 15. Maryin, D. & et al. Results of engine tests of an experimental gasoline internal combustion engine. International Scientific-Practical Conference “Agriculture and Food Security: Technology, Innovation, Markets, Human Resources. BIO Web Conf. 2020. Vol. 17. P. 1-5. https://doi.org/10.1051/bioconf/20201700078
- 16. Синицын, В.А. & et al. Оценка теплового состояния деталей цилиндро-поршневой группы двигателей внутреннего сгорания с помощью критериев. Алтайский государственный технический университет им. И.И. Ползунова. Барнаул, Ползуновский альманах. 2018. No. 3. P. 10-16. [In Russian: Sinitsyn, V.A. et al. Assessment of the thermal condition of parts of the cylinder piston group of internal combustion engines using criteria. Barnaul, Polzunovsky almanac].
- 17. Guardiola, C. & Pla, B. & Bares, P. & Barbier, A. An analysis of the in-cylinder pressure resonance excitation in internal combustion engines. Appl Energy. 2018. Vol. 228. P. 1272-1279.
- 18. Kuanyshev, M. et al. The improvement of friction bearing manufacturing technology by using copper alloy JTP. International Jurnal of Advnced Manufacturing Technology of plasticity. 2017. Tom: 88. Release: 1-4. P. 317-324. DOI. 10.100. Available at: https://link.springer.com/article/10.1007/s00170-016-8758-2.
- 19. Valiev, M. & Kosimov, K. Diagnosing the technical condition of the diesel cylinder-piston group. E3sWeb. Conf. 2021. Vol. 264. Paper No. 04061. DOI: 10.1051/e3sconf/202126404061.
- 20. Arshad, W. & Hanif, M.A. & Bhutta, M.U. & Mufti, R.A. & Shah, S.R. & Abdullah, M.U. & Najeeb, M.H. Technique developed to study camshaft and tappet wear on real production engine. Ind. Lubr. Tribol. 2017. Vol. 69. P. 174–181. DOI: https://doi.org/10.1108/ILT-06-2016-0135.
- 21. Bazhenov, Y. & Bazhenov, M. Research of operational dependability of automotive engines. Dependability. 2018. Vol. 18(4). No. 22. DOI: 10.21683/1729-2646-2018-18-4-22-27.
- 22. Heywood, J.B. Fundamentals of the Internal Combustion Engine. McGraw Hill Education. 2018. Available at: https://www.pdfstall.online/2018/12/internal-combustion-engine-fundamentals.html.
- 23. ГОСТ 30480. Обеспечение износостойкости изделий. Методы испытаний на износостойкость. Общие требования. Введен 1998.07.01. Минск. Межгосударственный совет по стандартизации, метрологии и сертификации. Издательство стандартов. 1998. 16 p. [In Russian: Ensuring the wearresistance of products. Methods of testing for wear resistance. General requirements. Minsk. Interstate Council for Standardization, Metrology and Certification].
- 24. Farafonov, D.P. & Migunov, V.P. & Saraev, A.A. & Leschev. N.E. Abradability and erosion resistance of seals in turbine engine air-gas channel. Proceedings of VIAM. 2018. No. 8(68). P. 70-80. Federal State Unitary Enterprise «All-Russian Scientific Research Institute of Aviation Materials» State Research Center of the Russian Federation. DOI: 10.18577/2307-6046-2018-0-8-70-80.
Uwagi
PL
Opracowanie rekordu ze środków MEiN, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2022-2023).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-8d52d8e5-4c9e-4c53-b7e3-8259a8bd767e