GAZ ALANGASIDA YUZALARNI TOBLASH TEXNOLOGIYASINIISHLAB CHIQISH
Keywords:
gaz alangasi, sirtni toblash, issiqlik bilan ishlov berish, metall qattiqligi, aşinuvga bardoshlilik, sovitish tezligi, po‘lat tarkibi, avtomatlashtirilgan texnologiya.Abstract
Mazkur maqolada gaz alangasida yuzalarni toblash texnologiyasining nazariy va amaliy jihatlari keng yoritilgan. Ushbu texnologiya metall detallarni sirtini yuqori haroratli alangada qizdirib, tez sovitish orqali mustahkamlashni nazarda tutadi. Yuzaki qattiqlikni oshirish, aşinuvga bardoshlilikni kuchaytirish hamda xizmat muddatini uzaytirish jarayoni issiqlik bilan ishlov berishning muhim yo‘nalishlaridan biridir. Maqolada gaz alangasida toblashning fizik-kimyoviy asoslari, qizdirish harorati, sovitish tezligi, po‘lat tarkibi kabi muhim parametrlar ilmiy tahlil qilinadi.
References
1. O‘zbekiston Respublikasi Prezidenti. O‘zbekiston Respublikasi Prezidentining 2022-yil 21-dekabrdagi PQ–4477-sonli qarori "Mashinasozlik va elektrotexnika sanoatini innovatsion rivojlantirish chora-tadbirlari to‘g‘risida" // Respublika axborotnomasi. – Т., 2022.
2. O‘zbekiston Respublikasi Vazirlar Mahkamasi. O‘zbekiston Respublikasi Vazirlar Mahkamasining 2021-yil 11-fevraldagi 66-sonli qarori "Texnik kasb-hunar ta’limi muassasalarida zamonaviy texnologiyalar asosida metallga ishlov berish va sirtni mustahkamlash tizimini takomillashtirish to‘g‘risida" // Hukumat qarorlari to‘plami. – Т., 2021.
3. Kharlamov Yu. A. Thermal spraying of coatings and environmental friendliness of production, operation and repair of machines // Heavy engineering. – 2000. – No. 2. – Pp. 10-13.
4. Korobov Yu. S. Increasing the service life of parts by supersonic gas-flame spraying // Heavy engineering. – 2006 . – No. 7. – Pp. 34-36.
5. Handbook of Thermal Spray Technology // Ed. by J. R. Davis, ASM International 2004, 200 p.
6. Hao R. L. Thermal spraying technology and it applications in the iron and steel industry in China // Global Coating Solutions: proc. of ITSC 2007. (Ed.) B.R. Marple, May 14–16, 2007 (Beijing, China), ASM International – 2007. – Pp. 291-296.
7. Deng C. et al. Impigement resistance of HVAF WC-based coatings // Journal of Thermal Spraying. – 2007. – Vol. 16 , – Pp. 604-609.
9. Breitsameter M. J., Prosperini M. JP-5000, the HVOF of the 21st century // 4th HVOF Colloquium at Erding, Munchen – Bavaria – Nov 13-14. – 1997. – Pp. 119-125.
10. Rusch W. Comparison of operating characterictics for gas and liquid fuel HVOF torches // Thermal Spray 2007: Global Coating Solutions: proc. of ITSC 2007 Pub. Materials Park, Ohio, USA, ASM International, 2007, -Pp. 572-576.
11. Kreye H. A comparison of HVOF systems – Behavior of materials and coating properties // 4th HVOF Colloquium at Erding, Munchen – Bavaria – Nov 13-14. – 1997. – P. 13-21.
12. Verstak A., Baranovski V. Activated combustion HVAF coatings for protection against wear and high temperature corrosion // Thermal Spray 2003: Advancing the Science and Applying the Technology. Proc. of the ITSC-2003. – 2003.
13. – Vol. 1. – P. 1.
Published
Issue
Section
License
Copyright (c) 2025 Anvarov Javoxir (Author)
This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
All Rights Reserved.
