Modeling the durability of diesel pistons with a crack on the edge of the combustion chamber
Alexander N. Gots , Andrey Yu. Abalyaev , Valery M. Fomin
Tractors and Agricultural Machinery ›› 2022, Vol. 89 ›› Issue (4) : 299 -306.
Modeling the durability of diesel pistons with a crack on the edge of the combustion chamber
BACKGROUND: During periodic long-term tests of tractor diesel engines D-240T with a combustion chamber of the CNIDI after 4000 m-hour, a deterioration in the indicators of the working process was observed. After disassembling the diesels, it turned out that the reason for this is the development of cracks on the edge of the combustion chamber (CC), and the deterioration of indicators is detected when the crack has reached a critical length.
AIMS: The aim of study is concerned investigation of a methodology for predicting of a tractor diesel piston durability with the crack on the CC edge and development of a method for calculating the crack evolution to before the transition to the improper state.
METHODS: Both experimental and computational methods were used in the research. Experimental pistons was manufactured with some design changes: the radius of the edge rounding changed, which changed the thickness of the side wall of the CC.
RESULTS: Motor studies of diesel engines have shown that with a certain piston design, a crack either does not appear at all, or appears after a large number of cycles. Additional computational studies have shown that the crack development depends on the stress intensity coefficient at the crack tip. Using the data of experimental studies, a method has been developed for estimating the critical crack length in the edge of the CC, at which the intensity of stresses in the vicinity of its vertex exceeds the limits accepted for this material from which the piston is made.
CONCLUSIONS: A method for calculating the durability of the piston during the development of a crack on the edge of the combustion chamber is proposed. Verification of the calculated data obtained during the numerical implementation of the piston evaluation method using the example of the diesel piston D-240 showed that for a range of crack lengths up to 1 mm and operating time over 7000 m-hour, the calculation error com-pared to the operational test data does not exceed 11%.
diesel / transients / piston / combustion chamber / temperature gradients / thermal stress / stresses / crack
| [1] |
Rozhansky VA, Kukharenok GM. Influence of combustion chamber parameters on the performance of the D-240 diesel engine // Traktory i selkhozmashiny. 1974;9:11–12. (in Russ). |
| [2] |
Рожанский В.А., Кухаренок Г.М. Влияние параметров камеры сгорания на показатели рабочего процесса дизеля Д-240 // Тракторы и сельхозмашины. 1974. № 9. С. 11–12. |
| [3] |
Voinov AN. Combustion in high-speed piston engines. Izd. 2-e, pererab. dop. Moscow: Mashinostroenie; 1977. (in Russ). |
| [4] |
Воинов А.Н. Сгорание в быстроходных поршневых двигателях. Изд. 2-е, перераб. и доп. М.: Машиностроение, 1977. |
| [5] |
Ivanchenko AB. Metodika otsenki termoustalostnoy prochnosti porshney forsirovannykh dizeley [dissertation]. Moscow; 1995. (in Russ). |
| [6] |
Иванченко А.Б. Методика оценки термоусталостной прочности поршней форсированных дизелей: дис. … канд. техн. наук. Москва, 1995. |
| [7] |
Rumb VK, Medvedev VV. Forecasting the durability of marine diesel parts. Dvigatelestroenie. 2006;4:29–34. (in Russ). |
| [8] |
Румб В.К., Медведев В.В. Прогнозирование долговечности деталей судовых дизелей // Двигателестроение. 2006. № 4. С. 29–34. |
| [9] |
Donchenko AS, Morganyuk VS, Averchenkov EA, et al. Calculation of the stress-strain state of a tractor diesel piston under cyclic loading. Problemy prochnosti. 1983;3:39–44. (in Russ). |
| [10] |
Донченко А.С., Морганюк В.С., Аверченков Е.А., и др. Расчет напряженно-деформированного состояния поршня тракторного дизеля при циклическом нагружении // Проблемы прочности. 1983. № 3. C. 39–44. |
| [11] |
Gots AN, Glinkin SA. Loading conditions for pistons of internal combustion engines and the causes of cracking on the edge of the combustion chamber. Tractors and agricultural machinery. 2016;10:25–29. (in Russ). |
| [12] |
Гоц А.Н., Глинкин С.А. Условия нагружения поршней двигателей внутреннего сгорания и причины образования трещин на кромке камеры сгорания // Тракторы и сельхозмашины, 2016. № 10. С. 25–29. |
| [13] |
Shekhovtsov AF, Abramchuk FI, Pylev VA. Creep and tensile relaxation of aluminum alloy AL25. Dvigatelestroenie. 1986;11: 45–47. (in Russ). |
| [14] |
Шеховцов А.Ф., Абрамчук Ф.И., Пылев В.А. Ползучесть и релаксация при растяжении алюминиевого сплава АЛ25 // Двигателестроение. 1986. № 11. С. 45–47. |
| [15] |
Gots AN, Glinkin SA. Forecasting the durability of pistons of internal combustion engines. Balti: Lambert Academic Publishing; 2017. (in Russ). |
| [16] |
Гоц А.Н., Глинкин С.А. Прогнозирование долговечности поршней двигателей внутреннего сгорания. Balti: Lambert Academic Publishing, 2017. |
| [17] |
Morozov EM, Nikishkov GP. Finite element method in fracture mechanics. Moscow: Nauka; 1980. (in Russ). |
| [18] |
Морозов Е.М., Никишков Г.П. Метод конечных элементов в механике разрушения. М.: Наука, 1980. |
| [19] |
Pospisil B, Kvitka AL, Tretyachenko GN, et al. Strength and durability of elements of power equipment. Kiev: Naukova. Dumka; 1987. (in Russ). |
| [20] |
Поспишил Б., Квитка А.Л., Третьяченко Г.Н. и др. Прочность и долговечность элементов энергетического оборудования. Киев: Наукова. думка, 1987. |
| [21] |
Birger IA. Deterministic and statistical models of durability. In: Problems of aircraft reliability. Obraztsova IF, Volmira AS. (eds). Moscow: Mashinostroenie; 1980. (in Russ). |
| [22] |
Биргер И.А. Детерминированные и статистические модели долговечности // Проблемы надежности летательных аппаратов. Под ред. И.Ф. Образцова, А.С. Вольмира. М.: Машиностроение, 1980. |
Gots A.N., Abalyaev A.Y., Fomin V.M.
/
| 〈 |
|
〉 |
PDF
