电邮这篇文章 PLASMA-ELECTROLYTIC MODIFICATION OF STEEL AND TITANIUM SURFACES BY COMBINING CATHODIC NI-TRIDING AND ANODIC POLISHING
- 作者: Kusmanov S.A1, Tambovskiy I.V1, Mukhacheva T.L1, Belov R.D1, Gorokhov I.S1, Nikiforov R.V1, Korableva S.S1, Kusmanova I.A1
-
隶属关系:
- Kostroma State University, Kostroma, Russia
- 期: 编号 3 (2023)
- 页面: 18-27
- 栏目: Articles
- URL: https://journals.rcsi.science/0869-5733/article/view/147958
- DOI: https://doi.org/10.31857/S0869573323030035
- EDN: https://elibrary.ru/GKSHZP
- ID: 147958
如何引用文章
开放存取
##reader.subscriptionAccessGranted##
订阅存取
详细
The possibility of increasing the wear resistance of steel 45 surfaces by 19.9 times and titanium alloy VT6 by 3.6 times after cathodic electrolytic plasma nitriding in a solution of ammonium chloride and ammonia and subsequent anodic electrolyte-plasma polishing in a solution of ammonium sulfate. A positive effect on wear resistance was revealed reducing surface roughness and removing the outer part of the oxide layer using anodic electrolytic plasma polishing and increasing the hardness of the surface layer as a result of cathodic nitriding. The wear mechanism is defined as fatigue upon plastic contact and boundary friction.
作者简介
S. Kusmanov
Kostroma State University, Kostroma, Russia
Email: akusmanov@yandex.ru
I. Tambovskiy
Kostroma State University, Kostroma, Russia
Email: akusmanov@yandex.ru
T. Mukhacheva
Kostroma State University, Kostroma, Russia
Email: akusmanov@yandex.ru
R. Belov
Kostroma State University, Kostroma, Russia
Email: akusmanov@yandex.ru
I. Gorokhov
Kostroma State University, Kostroma, Russia
Email: akusmanov@yandex.ru
R. Nikiforov
Kostroma State University, Kostroma, Russia
Email: akusmanov@yandex.ru
S. Korableva
Kostroma State University, Kostroma, Russia
Email: akusmanov@yandex.ru
I. Kusmanova
Kostroma State University, Kostroma, Russia
编辑信件的主要联系方式.
Email: akusmanov@yandex.ru
参考
- Yerokhin, A.L. Plasma electrolysis for surface engineering / A.L. Yerokhin, X. Nie, A. Leyland, A. Matthews, J. Dowey // Surf. Coat. Technol. 1999. V.122. P.73-93.
- Aliofkhazraei, M. Review of plasma electrolytic oxidation of titanium substrates: Mechanism, properties, applications and limitations / M. Aliofkhazraei, D.D. Macdonald, E. Matykina, E.V. Parfenov, V.S. Egorkin, J.A. Curran, S.C. Troughton, S.L. Sinebryukhov, S.V. Gnedenkov, T. Lampke, F. Simchen, H.F. Nabavi // Appl. Surf. Sci. Advances. 2021. V.5. Art.100121.
- Jin, S. Advances in micro-arc oxidation coatings on Mg-Li alloys / S. Jin, X. Ma, R. Wu, G. Wang, J. Zhang, B. Krit, S. Betsofen, B. Liu // Appl. Surf. Sci. Advances. 2021. V.8. Art.100219.
- Bogdashkina, N.L. Influence of nickel sulfate additives to electrolytes subjected to microarc oxidation on the structure, composition, and properties of coatings formed on titanium / N.L. Bogdashkina, M.V. Gerasimov, R.K. Zalavutdinov, I. Kasatkina, B. Krit, V.B. Lyudin, I.L. Fedichkin, A. Shcherbakov, A. Apelfeld // Surf. Eng. Appl. Electrochemistry. 2018. V.54. P.331-337.
- Belkin, P.N. Mechanism and technological opportunity of plasma electrolytic polishing of metals and alloys surfaces / P.N. Belkin, S.A. Kusmanov, E.V. Parfenov // Appl. Surf. Sci. Advances. 2020. V.1. Art.100016.
- Parfenov, E.V. Electric field effect on surface layer removal during electrolytic plasma polishing / E.V. Parfenov, R.G. Farrakhov, V.R. Mukaev, A.V. Gusarov, R.R. Nevyantseva, A.L. Yerokhin // Surf. Coat. Technol. 2016. V.307. P.1329-1340.
- Danilov, I. Process understanding of plasma electrolytic polishing through multiphysics simulation and inline metrology / I. Danilov, M. Hackert-Osch‡tzchen, M. Zinecker, G. Meichsner, J. Edelmann, A. Schubert // Micromachines. 2019. V.10. №3. P.214.
- Duradji, V.N. Aluminum treatment in the electrolytic plasma during the anodic process / V.N. Duradji, D.E. Kaputkin, A.Y. Duradji //j. Eng. Sci. Technol. Rev. 2017. V.10. №3. P.81-84.
- Belkin, P.N. Plasma electrolytic saturation of steels with nitrogen and carbon / P.N. Belkin, A. Yerokhin, S.A. Kusmanov // Surf. Coat. Technol. 2016. V.307. P.1194-1218.
- Kusmanov, S.A. Possibilities of increasing wear resistance of steel surface by plasma electrolytic treatment / S.A. Kusmanov, S.A. Silkin, A.A. Smirnov, P.N. Belkin // Wear. 2017. V.386, 387. P.239-246.
- Nie, X. Sliding wear behaviour of electrolytic plasma nitrided cast iron and steel / X. Nie, L. Wang, Z.C. Yao, L. Zhang, F. Cheng // Surf. Coat. Technol. 2005. V.200. №5, 6. P.1745-1750.
- Kusmanov, S.A. Increase in hardness and corrosion resistance of a medium-carbon steel surface using cathodic plasma electrolytic nitriding / S.A. Kusmanov, I.V. Tambovskii, S.S. Korableva, S.A. Silkin, A.A. Smirnov, I.A. Kusmanova, I.S. Gorokhov // Surf. Eng. Appl. Electrochemistry. 2022. V.58. №4. P.323-329.
- Aliofkhazraei, M. Study of nanocrystalline plasma electrolytic carbonitriding for CP-Ti / M. Aliofkhazraei, P. Taheri, A. Sabour Rouhaghdam, C. Dehghanian // Mater. Sci. 2007. V.43. №6. P.791-799.
- Dong, Y.-X. Characterization and blood compatibility of TiCxN1-x hard coating prepared by plasma electrolytic carbonitriding / Y.-X. Dong, Y.-S. Chen, Q. Chen, B. Liu, Z.-X. Song // Surf. Coat. Technol. 2007. V.201. P.8789-8795.
- Hu, Z. Study of plasma electrolytic nitrocarburizing on surface of titanium alloy / Z. Hu, F. Xie, Y. Liu, X. Wu // Mater. Rev. 2008. V.04. http://en.cnki.com.cn/Article_en/CJFDTOTAL-CLDB200804037.
- Li, X.-M. Mechanical properties of Ti(C0,7N0,3) film produced by plasma electrolytic carbonitriding of Ti6Al4V alloy / X.-M. Li, Y. Han // Appl. Surf. Sci. 2008. V.254. P.6350-6357.
- Kusmanov, S.A. Wear resistance increase in Ti6Al4V titanium alloy using a cathodic plasma electrolytic nitriding / S.A. Kusmanov, I.V. Tambovskii, S.S. Korableva, T.L. Mukhacheva, A.D. D'yakonova, R.V. Nikiforov, A.R. Naumov // Surf. Eng. Appl. Electrochemistry. 2022. V.58. №5. P.451-455.
- Aliofkhazraei, M. Study of bipolar pulsed nanocrystalline plasma electrolytic carbonitriding on nanostructure of compound layer for CP-Ti / M. Aliofkhazraei, A. S. Rouhaghdam, A. Denshmaslak, H. R. Jafarian, M. Sabouri //j. Coat. Technol. Res. 2008. V.5. №4. P.497-503.
- Aliev, M.Kh. Corrosion protection study of nanocrystalline plasma-electrolytic carbonitriding process for CP-Ti / M.Kh. Aliev, A. Sabour, P. Taheri // Protection of Metals and Physical Chemistry of Surfaces. 2008. V.44. №6. P.618-623.
- Kong, J.H. Surface modification of SCM420 steel by plasma electrolytic treatment /j.H. Kong, M. Okumiya, Y. Tsunekavwa, T. Takeda, K.Y. Yun, M. Yoshida, S.G. Kim // Surf. Coat. Technol. 2013. V.232. P.275-282.
- Smirnov, A.A. Effect of electrolyte depletion on the characteristics of the anodic plasma electrolytic nitriding of a VT22 titanium alloy / A.A. Smirnov, S.A. Kusmanov, I.A. Kusmanova, P.N. Belkin // Surf. Eng. Appl. Electrochemistry. 2017. V.53. №5. P.413-418.
- Kusmanov, S. Modification of steel surface by anodic plasma electrolytic boriding and polishing / S. Kusmanov, I. Tambovskiy, S. Korableva, S. Silkin, A. Naumov // Transactions of the Indian Institute of Metals. 2022. V.75. №12. P.3185-3192.
- Kusmanov, S.A. Plasma electrolytic polishing of steels after its cathodic saturation with nitrogen and carbon in other electrolytes / S.A. Kusmanov, I.V. Tambovskiy, I.S. Gorokhov, P.N. Belkin // Surf. Eng. Appl. Electrochemistry. 2021. V.57. №5. P.513-518.
- Apelfeld, A. Enhancement of medium-carbon steel corrosion and wear resistance by plasma electrolytic nitriding and polishing / A. Apelfeld, A. Borisov, I. Dyakov, S. Grigoriev, B. Krit, S. Kusmanov, S. Silkin, I. Suminov, I. Tambovskiy // Metals. 2021. V.11. P.1599.
- Belkin, P.N. Influence of plasma electrolytic polishing conditions on surface roughness of steel / P.N. Belkin, S.A. Silkin, I.G. Dyakov, S.V. Burov, S.A. Kusmanov // Surf. Eng. Appl. Electrochemistry. 2020. V.56. №1. P.55-62.
- Kusmanov, S.A. Enhancement of wear and corrosion resistance in medium carbon steel by plasma electrolytic nitriding and polishing / S.A. Kusmanov, I.V. Tambovskiy, S.S. Korableva, I.G. Dyakov, S.V. Burov, P.N. Belkin //j. Mater. Eng. Perform. 2019. V.28. №9. P.5425-5432.
- Kusmanov, S.A. Effect of plasma-electrolytic polishing on the corrosion resistance of structural steels after their anodic saturation with nitrogen, boron, and carbon / S.A. Kusmanov, S.A. Silkin, P.N. Belkin // Russ. J. Electrochemistry. 2020. V.56. №4. P.356-364.
- Kusmanov, S.A. Steel surface modification by cathodic carburizing and anodic polishing under conditions of electrolytic plasma / S.A. Kusmanov, I.V. Tambovskiy, S.S. Korableva, P.N. Belkin // Surf. Eng. Appl. Electrochemistry. 2020. V.56. №5. P.553-560.
- Friction and wear calculation methods by I.V. Kragelsky, M.N. Dobychin, V.S. Kombalov. - [S.l.]: Pergamon press, 1982.
- National standard of the Russian Federation. Geometrical Product Specifications (GPS). - M.: Standartinform, 2015. http://docs.cntd.ru/document/1200116337.
补充文件
