Development of a Technology for Processing a Rifled Barrel Channel to Improve Wear-Resistance of the Barrel
DOI:
https://doi.org/10.34169/2414-0651.2019.1(21).35-40Keywords:
wear resistant and corrosion resistant coatings, gun barrel, magnetron sputtering method, cylindrical magnetron, hardness, elasticityAbstract
The researches aimed at obtaining technology to increase the operational resource of cannon shafts, using the method of magnetron sputter, as a method, allows to receive high-quality coatings in terms of physical and technical characteristics.
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References
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9. Ahmad, I. The problem of gun barrel erosion: an overview // Gun propulsion technology. Progress in astronautics and Aeronautics / Ed. M. Summer field. – AIAA, 1988, Vol. 109, pp. 311–356.
10. Lee, S.L., Wei, R., Lin, J. et al. New PVD technologies for new ordnance coatings // Techn. Report ARWSBTR- 12007, April 2012. DOI: https://doi.org/10.21236/ADA588202
11. Lepesh, G. V., Ivanova, Е. S. Imitacionnoe modelirovanie termodinamicheskogo vozdejstviya pri ispytanii stojkosti zashchitnyh pokritij // Tekhniko-tekhnologicheskie problemy servisa, 2016, Vol. 36, No. 2, pp. 7–17.
12. Yee, F., Wotzak, M., Cipollo, M. L. et al. Cylindrical magnetron sputtering in a ferromagnetic cylinder // Fall News Bulletin SVC, 2004, pp. 28–34.
13. Nadtoka, V. N., Pankov, R. V., Dejneko, L. N. (2009) "Ekologicheski bezopasnyj metod naneseniya pokrytij na vnutrennie poverhnosti", Artillerijskoe i strelkovoe vooruzhenie, No. 1, pp. 54–57.
14. Nadtoka, V. N. (2007) "Zashchitnye pokrytiya dlya orudijnyh stvolov", Artillerijskoe i strelkovoe vooruzhenie, No 1, pp. 34–42.
15. Alami, J., Eklund, P., Anderssonet J.M. et al. Phase tailoring of Ta thin fi lms by highly ionized pulsed magnetron sputtering // Thin Solid Films, 2010, Vol. 515, pp. 3134–3438. DOI: https://doi.org/10.1016/j.tsf.2006.10.013
16. Nadtoka, V. N, Pankov, R. V., Dejneko, L. N. Razrabotka koncepcii kompleksnoj tekhnologii termicheskoj i ionno-plazmennoj obrabotki izdelij specialnogo naznacheniya // Stroitelstvo. Materialovedenie. Mashinostroenie. Seriya: Starodubovskie chteniya, 2011, No. 58, pp. 471–479.
17. Nikitin, M. M. Magnetronnoe raspylenie: evolyuciya skhem napyleniya i ionizaciya potokov, vzaimodejstvuyushchih s podlozhkoj // Fizika i himiya obrabotki materialov, 2011, No. 2, pp. 27–36.
18. Ignatovich, S. R., Zakiev, I. M. Universalnyj mikro/nano-indentometr «Mikron-gamma» // Zavodskaya laboratoriya, 2011, Vol. 77, No. 1, pp. 61–67.
2. Bebenin, A. N., Rudyi, V. I., Litovchenko, V. N. (2014) "Issledovanie mekhanicheskih svojstv zashchitnyh tugoplavkih pokrytij, nanesennyh metodom ionnoplazmennogo vakuumnogo magnetronnogo napyleniya", Trudy Nizhegorodskogo gosudarstvennogo tekhnicheskogo universiteta im. R.Е. Alekseeva, Vol. 107, No. 5, pp. 143–146.
3. Orlov, B. V., Larman, E. K., Malikov, V. G. Ustrojstvo i proektirovanie stvolov artillerijskih orudij. – Moskva, Mashinostroenie, 1976, p. 432.
4. Lazarenko, S. V., Rozorinov, G. N., Haskin, V. Yu. i dr. Primenenie lazernyh tekhnologij dlya uvelicheniya ekspluatacionnogo resursa rabochih poverhnostej // Suchasnyi zahyst іnformacіi, 2013, No. 3, pp. 75–82.
5. Conroy, P. J., Weinacht, P., Nusca, M. J. An investigation of the erosion physics / Mechanisms of current army systems (point studies) // Techn. Report ARL-TR-2054, Sep. 1999.
6. Sopok, S., Ricard, C, Pflegl, G. et al. Erosion modeling of the high contraction chromium plated crusader gun system // Techn. Report ARCCB-TR-03008, June 2003. DOI: https://doi.org/10.2514/6.2002-4167
7. Mulligan, S. P., Smith, S. V., Viyilmtle, G. N. Characterization and comparison of magnetron sputtered and electroplated gun bore coatings // J. Pressure Vessel Technol, 2006, Vol. 128, No. 2, pp. 240–245. DOI: https://doi.org/10.1115/1.2172963
8. Nadtoka, V. N. (2006) "Eroziya orudijnyh stvolov", Artileriiskoe i strelkovoe vooruzhenie, No. 4, pp. 16–22.
9. Ahmad, I. The problem of gun barrel erosion: an overview // Gun propulsion technology. Progress in astronautics and Aeronautics / Ed. M. Summer field. – AIAA, 1988, Vol. 109, pp. 311–356.
10. Lee, S.L., Wei, R., Lin, J. et al. New PVD technologies for new ordnance coatings // Techn. Report ARWSBTR- 12007, April 2012. DOI: https://doi.org/10.21236/ADA588202
11. Lepesh, G. V., Ivanova, Е. S. Imitacionnoe modelirovanie termodinamicheskogo vozdejstviya pri ispytanii stojkosti zashchitnyh pokritij // Tekhniko-tekhnologicheskie problemy servisa, 2016, Vol. 36, No. 2, pp. 7–17.
12. Yee, F., Wotzak, M., Cipollo, M. L. et al. Cylindrical magnetron sputtering in a ferromagnetic cylinder // Fall News Bulletin SVC, 2004, pp. 28–34.
13. Nadtoka, V. N., Pankov, R. V., Dejneko, L. N. (2009) "Ekologicheski bezopasnyj metod naneseniya pokrytij na vnutrennie poverhnosti", Artillerijskoe i strelkovoe vooruzhenie, No. 1, pp. 54–57.
14. Nadtoka, V. N. (2007) "Zashchitnye pokrytiya dlya orudijnyh stvolov", Artillerijskoe i strelkovoe vooruzhenie, No 1, pp. 34–42.
15. Alami, J., Eklund, P., Anderssonet J.M. et al. Phase tailoring of Ta thin fi lms by highly ionized pulsed magnetron sputtering // Thin Solid Films, 2010, Vol. 515, pp. 3134–3438. DOI: https://doi.org/10.1016/j.tsf.2006.10.013
16. Nadtoka, V. N, Pankov, R. V., Dejneko, L. N. Razrabotka koncepcii kompleksnoj tekhnologii termicheskoj i ionno-plazmennoj obrabotki izdelij specialnogo naznacheniya // Stroitelstvo. Materialovedenie. Mashinostroenie. Seriya: Starodubovskie chteniya, 2011, No. 58, pp. 471–479.
17. Nikitin, M. M. Magnetronnoe raspylenie: evolyuciya skhem napyleniya i ionizaciya potokov, vzaimodejstvuyushchih s podlozhkoj // Fizika i himiya obrabotki materialov, 2011, No. 2, pp. 27–36.
18. Ignatovich, S. R., Zakiev, I. M. Universalnyj mikro/nano-indentometr «Mikron-gamma» // Zavodskaya laboratoriya, 2011, Vol. 77, No. 1, pp. 61–67.
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Published
2019-03-26
How to Cite
Shkurat О., Baturin, V., Buhajov, S., Karpenko О., Kravchenko, S., Kolomiets, V., … Danylenko М. (2019). Development of a Technology for Processing a Rifled Barrel Channel to Improve Wear-Resistance of the Barrel. Weapons and Military Equipment, 21(1), 35–40. https://doi.org/10.34169/2414-0651.2019.1(21).35-40
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Section
ARTILLERY WEAPONS & SMALL ARMS
