Keywords
Abstract
Maqolada teplovoz dizeli silindr qopqoqlarining texnik holatini baholashning samarali usullari ko‘rib chiqiladi, bu nosozliklarni o‘z vaqtida aniqlash va ularni bartaraf etish choralarini ko‘rish imkonini beradi.
Dizel dvigatellarning ishlash samaradorligini oshirish va ulardan foydalanish davomida yuzaga kelishi mumkin bo‘lgan nosozliklar yoki deformatsiyalarning oldini olishga qaratilgan muhim tadqiqot sohasidir. Dizel dvigatellari, ayniqsa yirik sanoat va transport tizimlarida keng qo‘llaniladi, shuning uchun ularning texnik holatini muntazam ravishda nazorat qilish zarur.
Silindr qopqog‘i, dvigatelning ichki qismlarini himoya qilish, silindrga kiradigan havo va yonilg‘ini boshqarish uchun muhim rol o‘ynaydi. U, shuningdek, silindrni issiqlik va mexanik ta’sirdan saqlashda va dvigatelning umumiy ishlash barqarorligini ta’minlashda katta ahamiyatga ega.
References
G. Kamisiya, G. Timelli. Operations of the Chinese Nonferrous Metals Society, 26 (5) (2016), pages 1211-1221.
2. R. Gonsales, A. Gonsales, J. Talamantes-Silva, et al. Journal of Fateguing International, 24 (2002), pages 1-9.
3. E. Qilinch, Y. Birol. International Journal of Cast Metals Research, 30 (4) (2017), pages 244-250.
4. J. Tomas, L. Verger, A. Bignonnet, et al. Engineering Materials and Structures: Fatigue and Fracture, 27 (10) (2010), pages 887-895.
5. X. Tomas, R. Martin, E. Hermann-Jozef, et al. SAE International Journal of Engines, 1 (1) (2008), pages 746-755.
6. M. Ali, M. Hassan, M. Kalam, et al. Key-Off, SAE Technical Papers: Identification of 1D-3D Temperature and Heat Transfer Distribution in the Cooling Jacket of SI Engine Cooling System.
7. M. Azadi, A. Mafi, M. Roozban, et al. Failure Analysis and Prevention Journal, 12 (3) (2012), pages 286-294.
8. B. Krstic, B. Rasuo, D. Trifkovich, et al. Engineering Failure Analysis, 34 (2013), pages 335-349.
9. B. Krstic, B. Rasuo, D. Trifkovich, et al. Engineering Failure Analysis, 32 (2013), pages 1-15.
10. S. Zhang, Z. Wang, Y. Han, et al. Engineering Materials and Structures: Fatigue and Fracture, 43 (1) (2020), pages 110-118.
11. D. Lados, D. Apelian, A. Figeredo. Advances in Aluminum Casting Technology I, I (2002), pages 185-196.
12. D. Lados, D. Apelian. Influence of Recycling Conditions and Microstructure on Mechanical Properties, Materials Science and Engineering A, 385 (1-2) (2004), pages 200-211.
13. Q. Wang, D. Apelian, D. Lados. Journal of Light Metals, 1 (1) (2001), pages 73-84.
14. M. Kuper, A. Nison, J. Griffits. Engineering Materials and Structures: Fatigue and Fracture, 13 (3) (2010), pages 213-227.
15. B. Guo, V. Zhang, X. Wang. Advances in Mechanical Engineering (2014), pages 1-7.
16. A. Wickberg, G. Gustafsson, L. Larsson. Microstructural Effects on the Fatigue Properties of Cast Al7SiMg Alloys, SAE Warrendale, PA 1.
17. M. Avalle, G. Belingardi, P. Cavatorta, et al. Journal of Fateguing International, 24 (2002), pages 1-9.
18. Q. Wang. Metallurgical and Materials Transactions A, 34A (2003), pages 2887-2899.
19. C. Cceres, C. Davidson, J. Griffits. Materials Science and Engineering A, 197 (2) (1995), pages 171-179.
20. D. Lados, D. Apelian, J. Donald. Metallurgical and Materials Transactions A, 54 (8) (2006), pages 1475-1486.
21. Q. Wang, D. Apelian, D. Lados. Journal of Light Metals, 1 (1) (2001), pages 85-97.
22. G. Jing, M. Zhang, S. Qu, et al. Engineering Failure Analysis, 90 (2018), pages 36-46.
23. S. Peter, E. Jessica, I. Nulifer, et al. Molybdenum and Solidification Time, Materials Science Forum, 925 (2018), pages 377-384.
24. D. Coupard, T. Palin-Luc, P. Bristiel, et al. Materials Science and Engineering A, 487 (1-2) (2008), pages 328-339.
25. D.A. Lados, D. Apelian. Metallurgical and Materials Transactions A, 37 (1) (2006), pages 133-145.
26. I. Bantounas, D. Dye, T. Lindli. Acta Materialia, 58 (11) (2010), pages 3908-3918.