SURFACE MODIFICATION OF METAL PRODUCTS BY ELECTROLYTE PLASMA

Authors

Volodymyr Korzhyk
E.O. Paton Electric Welding Institute of the National Academy of Sciences of Ukraine
https://orcid.org/0000-0001-9106-8593
Yuriy Tyurin
E.O. Paton Electric Welding Institute of the National Academy of Sciences of Ukraine
https://orcid.org/0000-0002-7901-7395
Oleg Kolisnichenko
E.O. Paton Electric Welding Institute of the National Academy of Sciences of Ukraine
https://orcid.org/0000-0003-4507-9050

Synopsis

The monograph presents the results of theoretical and experimental studies of non-stationary processes of modification of metal surfaces by electric current, by switching it with a liquid-electrolyte electrode. This process is called plasma electrolyte treatment (PET). On the basis of the research carried out, complex hardening technologies and equipment have been created. Technologies allow oxidizing, alloying and changing the structure of local areas of the surface of products, which greatly increases their physical and mechanical properties without changing the structural state of the entire product.

The complex of developed technologies multiplies: strength, wear resistance, fatigue strength of products under cyclic loads under conditions of friction and wear. Along with theoretical material, the monograph provides extensive information on the application and efficiency of the developed technologies in industry.

The monograph is intended for engineering and technical workers of machine-building enterprises and institutes that specialize in the field of hardening processing of products.

ISBN 978-617-7319-47-3 (on-line)
ISBN 978-617-7319-48-0 (print)

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How to Cite: Korzhyk, V., Tyurin, Yu., Kolisnichenko, O.; Korzhyk, V. (Ed.) (2021). Surface modification of metal products by electrolyte plasma. Kharkiv: РС ТЕСHNOLOGY СЕNTЕR, 180. doi: https://doi.org/10.15587/978-617-7319-47-3

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Indexing:

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Chapters

  • INTRODUCTION
  • THEORETICAL PRINCIPLES OF ELECTROLYTIC-PLASMA PROCESSING
  • ELECTROLYTIC-PLASMA THERMAL CYCLIC TREATMENT (EPTCT) OF ENGINEERING PRODUCTS
  • CLEANING AND HEATING OF ROLLED METAL
  • ELECTROLYTIC-PLASMA CHEMICAL-THERMAL TREATMENT
  • ELECTROLYTIC PLASMA OXIDATION (EPO)
  • CONCLUSIONS

Author Biographies

Volodymyr Korzhyk, E.O. Paton Electric Welding Institute of the National Academy of Sciences of Ukraine

Corresponding Member of National Academy of Sciences of Ukraine, Doctor of Technical Sciences, Professor, Head of Department
Department of Electrothermal Processes of Materials Processing
ID ORCID   https://orcid.org/0000-0001-9106-8593
Corresponding author:
Mail to vnkorzhyk@gmail.com

Yuriy Tyurin, E.O. Paton Electric Welding Institute of the National Academy of Sciences of Ukraine

Doctor of Technical Sciences, Senior Researcher
Department of New Physical and Chemical Ways of Welding
ID ORCID   https://orcid.org/0000-0002-7901-7395

Oleg Kolisnichenko, E.O. Paton Electric Welding Institute of the National Academy of Sciences of Ukraine

PhD, Senior Researcher
Department of New Physical and Chemical Ways of Welding
ID ORCID   https://orcid.org/0000-0003-4507-9050

References

Sluginov, N. (1880). On luminous phenomen, observed in liquids during electrolysis. J. Russ. Phys. Chem. Soc., 12, 193–203.

Schulze, G., Betz, H. (1937). Elektrolytkondensatoren. Berlin: Krayn, 178.

McNiell, W., Nordbloom, G. F. (1958). Pat. No. 2854390 US. Metod of making cadmium niobate. U.S. Class: 205/477; 204/164; 205/322. CPC Class: C01G 33/00 (20130101); C01P 2006/40 (20130101). published: 30.09.1958.

McNiell, W., Gross, L. L. (1966). Pat. No. 3293158 US. Anodik spark reaktion processes and articles. U.S. Class: 205/316; 205/321; 205/320; 205/322; 205/323. CPC Class: C25D 11/026 (20130101); C25D 9/06 (20130101). published: 20.12.1966.

Markov, G. A., Markova, G. V. (1976). Pat. No. 526961 USSR. Sposob formovki anodov elektroliticheskikh kondensatorov. MPK: H01G 9/04. No. 1751524. declareted: 24.02.1972; published: 30.08.1976, Bul. No. 32.

Nikolaev, A. V., Markov, G. A., Peshchevitskij, B. I. (1977). Novoe iavlenie v elektrolize. Izvestiia Sibirskogo otdeleniia Akademii nauk SSSR. Seriia khimicheskikh nauk, 5 (12), 32–33.

Markov, G. A., Tatarchuk, V. V., Mironova, M. K. (1983). Mikrodugovoe oksidirovanie aliuminiia v kontsentrirovannoi sernoi kislote. Izvestiia Sibirskogo otdeleniia Akademii nauk SSSR. Seriia khimicheskikh nauk, 3 (7), 34–37.

Snezhko, L. A., Beskrovnyi, Iu. M., Nevkrytyi, V. I., Chernenko, V. I. (1980). Impulsnyi rezhim dlia polucheniia silikatnykh pokrytii v iskrovom razriade. Zaschita metallov, 16 (3), 365–367.

Snezhko, L. A., Rozenboym, G. V., Chernenko, V. I. (1981). Issledovanie korrozionnoi stoikosti splavov aliuminiia s silikatnymi pokrytiiami. Zaschita metallov, 17 (5), 618–621.

Snezhko, L. A., Chernenko, V. I. (1983). Energeticheskie parametry protsessa polucheniia silikatnykh pokrytii na aliuminii v rezhime iskrovogo razriada. Elektronnaia obrabotka materialov, 2 (110), 25–28.

Snezhko, L. A., Chernenko, V. I. (1983). Mekhanizm dielektricheskogo proboia pri formovke anodnykh keramicheskikh plenok na AMg 5. Elektronnaia obrabotka materialov, 4, 38–40.

Tchernenko, V. I., Snezhko, L. A., Chernova, C. B. (1984). Elektrilmsh dli formovki keramicheskikh pokrytii na aliuminii v rezhime iskrovogo razriada. Zaschita metallov, 20 (3), 454–458.

Snezhko, L. A., Pavlus, S. G., Chernenko, V. I. (1984). Anodnyi protsess pri formovke silikatnykh pokrytii. Zaschita metallov, 20 (4), 292–296.

Markov, G. A., Mironova, M. K., Potapova, O. G. et. al. (1983). Struktura anodnykh plenok pri mikrodugovom oksidirovanii aliuminiia. Izvestiia AN SSSR. Neorganicheskie materialy, 19 (7), 1110–1113.

Petrosiants, A. A., Malyshev, V. N., Fedorov, V. A., Markov, G. A. (1984). Kinetika iznashivaniia pokrytii, nanesennykh metodom mikrodugovogo oksidirovaniia. Trenie i iznos, 5 (2), 353–357.

Malyshev, N., Bulychev, S. I., Markov, G. A., Fyodorov, V. A., Petro-Syants, A. A., Kudinov, V. V., Shorshorov, M. H. (1980). Fiziko-mekhanicheskie kharakteristiki i iznosostoikost pokrytii, nanesennykh metodom mikrodugovogo oksidirovaniia. Fizika i khimiia obrabotki material, 1, 82–87.

Fyodorov, V. A., Belozerov, V. V., Velikosel’skaya, N. D., Bulychev, S. I. (1988). Sostav i struktura uprochnennogo poverkhnostnogo sloia na splavakh aliuminiia, poluchaemogo pri mikrodugovom oksidirova-142 nii. Fizika i khimiia obrabotki material, 4, 92–97.

Rudnev, V. S., Gordienko, P. S. (1987). Nekotorye dannye o iskrovom rezhime formirovaniia anodnykh elektroliticheskikh pokrytii na aliuminii i ego splavakh. Vladivostok, 55–e. Dep. v VINITI, 3384–B87.

Khrisanfova, O. A., Gordienko, P. S. (1989). Vliianie ionnogo sostava elektrolita i rezhimov oksidirovaniia na fazovyi sostav pokrytii, poluchaemykh na metallakh. Vladivostok, 71–e. Dep. v VINITI, 2986–B89.

Gordienko, P. S., Nedozorov, P. M., Volkova, L. M,. Yarovaya, T. P., Khrisanfova, O. A. (1989). Fazovyi sostav anodnykh plenok na splave NTSu-1, poluchennykh pri potentsialakh iskreniia v vodnykh elektrolitakh. Zaschita metallov, 25 (1), 125–128.

Kurze, P., Krysmann, W., Marx, G. (1982). Zur anodischen Oxidation von Aluminium unter Funkenentladung (ANOF) in Wassrigen Electroliten Wiss. Tech. Hochsch. Karl-Marx-Stadt., 24 (6), 665–670.

Dittrich, K.-H., Krysmann, W., Kurze, P., Schneider, H. G. (1984). Structure and properties of ANOF Layers. Crystal Research and Technology, 19 (1), 93–99. doi: http://doi.org/10.1002/crat.2170190117

Krysmann, W., Kurze, P., Dittrich, K.-H., Schneider, H. G. (1984). Process characteristics and parameters of Anodic Oxidation by spark discharge (ANOF). Crystal Research and Technology, 19 (7), 973–979. doi: http://doi.org/10.1002/crat.2170190721

Kurze, P., Schreckenbach, J., Schwarz, T., Krysmann, W. (1986). Coating by anodic oxidation with spark discharge. Metalloberflaeche, 40 (12), 539–540.

Saakin, L. S., Yefremov, A. P., Ropyak, L. Y., Apelfeld, A. V. (1986). Corrosion Con-trol and Environment Protection. Informative Survey. Moscow: VNII–OENG, 6.

Fyedorov, V. A., Kan, A. G., Maksutov, R. P. (1989). Surface Strengthening of Oil &Gas Trade Facilities by Micro Arc Oxidation. Moscow: VNII–OENG, 6.

Markov. G. A., Gizatullin B. S., Rychazhkova I. E. (1982). Pat. No. 926083 USSR. Sposob elektroliticheskogo naneseniia silikatnykh pokrytii. MPK: C25D 9/06 (2006.01). No. 2864936. declareted: 04.01.1980; published: 07.05.1982, Bul. No. 17.

Hradkovsky, R. J., Bayles, Jr. S. H. (1974). Pat. No. 3956080 US. Coated valve metal article formed by spark anodizing. U.S. Class: 205/316; 205/321; 427/344; 106/600; 205/322; 205/323; 428/450. CPC Class: B41N 3/03 (20130101); C25D 9/04 (20130101); C25D 11/06 (20130101); C25D 11/26 (20130101); C25D 11/30 (20130101); C25D 11/32 (20130101); C25D 11/34 (20130101); H01G 9/0032 (20130101); C25D 11/026 (20130101). published: 11.05.1976.

Brown, S. D., Kuna, K. J., Van, T. B. (1971). Anodic Spark Deposition from Aqueous Solutions of NaAlO2 and Na2SiO3. Journal of the American Ceramic Society, 54 (8), 384–390. doi: http://doi.org/10.1111/j.1151-2916.1971.tb12328.x

Van, T. B., Brown, S. D., Wirtz, G. P. (1977). Mechanism of anodic spark deposition. American Ceramic Society Bulletin, 56 (6), 563–566.

Ostroumov, G. A. (1979). Vzaimodeistvie elektricheskikh i gidrodinamicheskikh polei. Moscow: Nauka, 310.

Plank М. (1890). Ueber die potential differenz zwischen zwei verdunnten losungen binarer electrolyte. Annallen der Physik und Chemie, 276 (8), 561–576. doi: http://doi.org/10.1002/andp.18902760802

Iasnogorodskii, Ia. Z. (1949). Nagrev metallov i splavov v elektrolite. Moscow: Mashgiz, 128.

Yerokhin, A. L., Nie, X., Leyland, A., Matthews, A., Dowey, S. J. (1999). Plasma electrolysis for surface engineering. Surface and Coatings Technology, 122 (2-3), 73–93. doi: http://doi.org/10.1016/s0257-8972(99)00441-7

Nikitin, V. N., Eretnov, K. I., Artemev, A. V. (1983). Issledovanie prikatodnoi zoni nestatsionarnogo rezhima elektrolitnoi obrabotki. Elektronnaia obrabotka materialov, 2, 35–37.

Slovetskii, D. I., Terentev, S. D., Plekhanov, V. G. (1986). Mekhanizm plazmenno-elektrolitnogo nagreva metallov. Teplofizika vysokikh temperatur, 2 (24), 353–363.

Chernenko, V. I., Snezhko, L. A., Papanova, I. I., Litovchenko, K. I. (1995). Teoriia i tekhnologiia anodnykh protsessov pri vysokikh napriazheniiakh. Kyiv: Naukova dumka, 197.

Raizer, Iu. P. (1992). Fizika gazovogo razriada. Moscow: Red. fiz.-mat. lit., 536.

Tyurin, Yu. N., Tiuliapin, A. N., Traino, A. I., Iusupov, V. S. (1998). Elektrolitno-plazmennaia zakalka diskovykh pil. MITOM, 1, 9–11.

Eretnov, K. I., Lebedev, S. V. (1997). Protsessy nagreva i ochistki poverkhnosti metallov v elektrolite i ikh prakticheskoe ispolzovanie. Lipetsk, 152.

Fediukin, V. K. (1977). Termotsiklicheskaia obrabotka stalei i chugunov. Leningrad: LGU, 144.

Tyurin, Yu. N. (1986). A.S. No. 1312974 SSSR. Sposob termicheskoi obrabotki izdelii. MPK: C21D 1/78. declareted: 11.04.1984; published: 22.01.1986.

Pogrebnjak, A. D., Kul’ment’eva, O. P., Kobzev, A. P., Tyurin, Y. N., Golovenko, S. I., Boiko, A. G. (2003). Mass transfer and doping during electrolyte-plasma treatment of cast iron. Technical Physics Letters, 29 (4), 312–315. doi: http://doi.org/10.1134/1.1573301

Tyurin, Y. N., Pogrebnjak, A. D. (2001). Electric heating using a liquid electrode. Surface and Coatings Technology, 142-144, 293–299. doi: http://doi.org/10.1016/s0257-8972(01)01207-5

Gorelik, S. S., Rastorguev, L. N., Skakov, Iu. A. (1970). Rentgenograficheskii i elektronnoopticheskii analiz. Prilozheniia. Moscow: Metallurgiia, 366.

Bariakhtar, V. G. (Ed.) (1996). Fizika tverdogo tela: Entsiklopedicheskii slovar. Kyiv: Naukova dumka, 1295.

Bariakhtar, V. G., Buravlev, Iu. M., Shevchenko, V. P. (2000). Trudy OTTOM 2000. Kharkiv: NNTS KHFTI, 155.

Landau, L. D., Lifshits, E. M. (1959). Elektrodinamika sploshnykh sred. Moscow: Fizmatgiz, 632.

Kochin, N. V., Kibel, I. A., Roze, N. V. (1963). Teoreticheskaia gidromekhanika. Part. 1. Moscow: Fizmatgiz, 583.

Landau, L. D., Lifshits, E. M. (1953). Mekhanika sploshnykh sred. Moscow: Gostekhizdat, 788.

Pogrebniak, A. D., Tyurin, Yu. N., Ivchenko, A. P., Ponariadov, V. V., Ruzimov, Sh. M., Kulmenteva, O. P., Kshniakin, V. S. (2003). Osobennosti i preimuschestva elektrolitno-plazmennoi zakalki. Metallofizika i noveishie tekhnologii, 25 (10), 1329–1353.

Tyurin, Yu. N. (1984). Pat. No. 1375659 SSSR. Ustroistvo dlia nagreva izdelii v elektrolite. MPK: C21D 1/44. No. 3715006. declareted: 27.03.1984; published: 23.02.1988, Bul. No. 7.

Tyurin, Yu. N., Golovenko, S. I. (2001). Elektrolitno-plazmennaia obrabotka izdelii iz stali. Sb. Trudov OTTOM-2. Tekhnologiia termicheskoi i termomekhanicheskoi obrabotki. Kharkiv, 160–167.

Oleinikov, M. A., Zuev, I. V., Kazimirov, N. G. (1989). Pat. No. 1481260 SSSR. Sposob kontrolia termicheskoi obrabotki stalnykh detalei pri nagreve v vanne s elektrolitom. MPK: C21D 1/46(2006.01), C21D 11/00(2006.01). No. 4308349. declareted: 22.09.87; published: 23.05.1989.

Tyurin, Yu. N., Gnibeda, V. P. (1990). A.s. No. 1611625. SSSR. Sposob termokhimicheskoi zachistki poverkhnosti metallicheskikh izdelii. MPK: B23K 7/06 (2006.01). No. 4473489. declareted: 15.08.1988. published: 07.12.1990, Bul. No. 45.

Tyurin, Yu. N. (1990). Elektrolitno-plazmennaia uprochniaiuschaia obrabotka detalei svarnykh konstruktsii. Avtomaticheskaia svarka (Dep.). Kyiv, 10.

Tiuryn, Yu. N., Smyrnov, S. P., Subbotyn, V. P. (2007). Pat. No. 79234 UA. Prystrii dlia obrobky poverkhni dovhomirnykh vyrobiv. MPK: C25D 5/00, C21D 1/42 (2006.01), C21D 9/08 (2006.01), C25F 1/00. No. 2003054871. declareted: 28.05.2003; published: 11.06.2007, Bul. No. 8.

Barabantsev, G. E., Tiuliapin, A. N., Lukanin, Iu. V., Tyurin, Yu. N., Riabinkova, V. K., Traino, A. I. (1998). Pat. No. 2123535 RU. Ustroistvo dlia zakalki diskovykh pil. MPK: C21D 9/24 (2006.01), C21D 1/44 (2006.01). No. 97112338/02. declareted: 15.07.1997; published: 20.12.1998.

Barabantsev, G. E., Tiuliapin, A. N., Lukanin, Iu. V., Tyurin, Yu. N., Rosliakova, N. E., Traino, A. I. (1998). Pat. No. 2119538 RU. Sposob zakalki diskovykh pil. MPK: C21D 1/44 (2006.01). No. 97112299/02. declareted: 15.07.1997; published: 27.09.1998.

Barabantsev, G. E., Lukanin, Iu. V., Tiuliapin, A. N., Rosliakova, N. E., Tyurin, Yu. N. (1999). Pat. No. 2138564 RU. Sposob uprochneniia pily. MPK: C21D 9/24 (2006.01). No. 98106746/02. declareted: 30.03.1998; published: 27.09.1999.

Snegovskii, F. P., Tyurin, Yu. N. (1975). Vliianie mikrorelefa vala na rabotosposobnost manzhetnykh uplotnitelnykh uzlov. Problemy treniia i iznashivaniia. Tekhnika, 7, 64–69.

Snegovskii, F. P., Tyurin, Yu. N. (1976). Gidrodinamicheskaia smazka manzhetnogo uplotnitelnogo uzla s vibronakatannym valom. Vestnik mashinostroeniia, 1, 31–36.

Tyurin, Yu. N. (1977). Teoreticheskoe i eksperimentalnye issledovanie, razrabotka i vnedrenie uzlov valov s gidrodinaicheskoi smazkoi Dissertatsii na soiskanie uchenoi stepeni kandidata tekhnicheskikh nauk. Rostov-na-Donu, 256.

Tyurin, Yu. N. (1987). A.S. No. 1340165 SSSR. Ustroistvo dlia termicheskoi obrabotki detalei. MPK: C21D 9/48. declareted: 26.06.1985; published: 02.11.1987.

Tyurin, Yu. N. (1987). A.S. No. 1311263 SSSR. Sposob uprochneniia stalnykh detalei. MPK: C25D 11/02. declareted: 22.05.1985; published: 15.01.1987.

Tyurin, Yu. N., Garkavyi, N. I., Golovenko, S. I., Duda, I. M. (2009). Uprochnenie sheek krupnogabaritnykh kolenchatykh valov. Zhurnal Uprochniaiuschie Tekhnologii, 9, 39–42.

Tyurin, Yu. N., Golovenko, S. I., Duda, I. M. (2010). Pat. No. 90378 UA. Method for heat treatment of articles. MPK: C21D 1/00. No. a 2008 09410. declareted: 18.07.2008; published: 26.04.2010, Bul. No. 8.

Tyurin, Yu. N., Garbuzov, A. P. (1989). Pat. No. 1470781 SSSR. Sposob i ustroistvo zaklki listovogo prokata. MPK: C21D 1/40. declareted: 26.08.1986; published: 07.04.1989.

Tyurin, Yu. N. (1989). Pat. No. 1488321 SSSR. Sposob nagreva detalei. MPK: C21D 1/44. declareted: 10.04.1987; published: 22.02.1989.

Pogrebniak, A. D., Tyurin, Yu. N., Boiko, A. G., Zhadkevich, M. L., Kalyshkanov, M. K., Ruzimov, Sh. M. (2005). Elektrolitno-plazmennaia obrabotka i nanesenie pokrytii na metally i splavy. Uspekhe fiziki metalov, 6, 273–344.

Tyurin, Yu. N., Shleenko, V. I., Semenova, L. V., Anufriev, A. V. (1990). Pat. No. 1537695 SSSR. Ustroistvo dlia zonnogo nagreva detalei v elektrolite. No. 4336032. declareted: 01.12.1987; published: 23.01.1990.

Tyurin, Yu. N. Kiselev, E. I., Gnibeda, V. P., Semenov, V. V., Gavrilov, B. P., Girshovich, G. A. (1988). Pat. No. 1399231 SSSR. MPK: B65G 19/28 (2006.01). Skrebkovyi konveier. No. 3980642. declareted: 27.11.1985; published: 30.05.1988.

Tyurin, Yu. N., Kalafatov, A. P., Zuev, I. V. (1990). Pat. No. 1546362 SSSR. Reshtak skrebkovogo konveera. MPK: B65G 19/28 (2006.01). No. 4428164. declareted: 23.05.1988; published: 28.08.1990.

Tyurin, Yu. N. (1986). Pat. No. 1277646 SSSR. Ustroistvo dlia elektrolitnogo plazmennogo naneseniia pokrytii. MPK: C25D 11/02. declareted: 11.12.1984; published: 15.08.1986.

Tyurin, Yu. N. (1987). Pat. No. 1331074 SSSR. Ustroistvo dlia zonnogo nagreva detalei v elektrolite. MPK: C21D 1/44. declareted: 18.07.1985; published: 02.11.1987.

Tyurin, Yu. N. (1989). Pat. No. 1441168 SSSR. Ustanovka dlia termicheskoi obrabotki detalei. MPK: C21D 1/44. declareted: 27.07.1987; published: 09.10.1989.

Tyurin, Yu. N. (1990). Pat. No. 1605527 SSSR. Ustanovka dlia nagreva i okhlazhdeniia izdelii v elektrolite. MPK: C21D 1/44. declareted: 10.02.1988; published: 19.05.1990.

Tyurin, Yu. N. (1998). Pat. No. 1439835 SSSR. Sposob litia s kristalizatsiei pod davleniem. MPK: V22 F9/10. declareted: 15.02.1987; published: 10.08.1998.

Tyurin, Yu. N. (1988). Pat. No. 1396362 SSSR. Sposob goriachego deformirovaniia zagotovok. MPK: B23K 11/06. declareted: 06.06.1986; published: 25.01.1988.

Tyurin, Yu. N. (1987). Pat. No. 1381851 SSSR. Ustanovka dlia naplavki. MPK: B23K 11/06. declareted: 01.09.1986; published: 15.10.1987.

Tyurin, Yu. N. (1989). Pat. No. 1464481 SSSR. Usroistvo dlia zonnogo nagreva detalei v elektroplite. MPK: C21D 1/44. declareted: 09.03.1987; published: 29.08.1989.

Tyurin, Yu. N. (1986). Pat. No. 1150956 SSSR. Ustroistvo dlia elektrolitno-plazmennogo uprochneniia detalei. MPK: C21D 1/44. declareted: 04.01.1984; published: 19.11.1986.

Tyurin, Yu. N. (1991). Pat. No. 1602071 SSSR. Sposob zhidkostnogo vanadirovaniia splavov na osnove zheleza. MPK: C23C 8/00. declareted: 16.02.1989; published: 13.08.1991.

Belonogov, V. A., Belonogova, G. U. (1996). Elektrolitno-plazmennaia obrabotka zharoprochnykh splavov. Probl. Energo. mashinostr. Ufa, 117.

Kashin, Iu. A. (1982). A.s. No. 933742 SSSR. Ustroistvo dlia nagreva zagotovok. MPK: S21D1/40, C21D9/62. No. 2933773. declareted: 03.06.1980; published: 07.06.1982.

Fominov, A. Ia. (1977). A.s. No. 579324 SSSR. Ustroistvo dlia posledovatelnogo nagreva zagotovok v elektrolite. MPK: S21D 1/44. No. 2149083. declareted: 23.06.1975; published: 05.11.1977.

Anagorskii, L. A., Brinza, V. N., Dolgov, M. V., Malyshko, N. F., Fominov, A. Ia., Frantseniuk, I. V. (1974). A.s. 411136 SSSR. Ustanovka dlia nagreva metalla v elektrolite. MPK: C21D 1/44, C21D 9/46. No. 1407548/22-1. declareted: 23.02.1970; published: 15.01.1974.

Stanishevskii, V. K., Kosobutskii, A. A., Parshuto, A. E., Khlebtsevich, V. A., Matiushevskii, I. I., Levin, B. G. (1990). A.s. No. 1615241 SSSR. Sposob elektrolitno-plazmennoi obrabotki i ustroistvo dlia ego osuschestvleniia. MPK: S25F7/00. C25D 7/06. No. 4611410. declareted: 01.12.1988; published: 23.12.1990.

Riabkov, D. V. (1998). Pat. No. 97100692. Sposob mnogofunktsionalnoi obrabotki poverkhnostei i ustroistvo dlia ego osuschestvleniia. MPK: C23C16/44. No. 97100692/02. declareted: 24.01.1997; published: 20.05.1998.

Pogrebnyak, A. D., Kaverina, A. S., Kylyshkanov, M. K. (2014). Electrolytic plasma processing for plating coatings and treating metals and alloys. Protection of Metals and Physical Chemistry of Surfaces, 50 (1), 72–87. doi: http://doi.org/10.1134/s2070205114010092

Pogrebniak, A. D., Tyurin, Yu. N. (2002). Osobennosti elektrolitno-plazmennoi zakalki (EPZ). Zhurnal tekhnicheskoi fiziki, 72 (11). 119–120.

Larinov, L. N., Mazanko, V. F., Falchenko, V. M. (1981). Massoperenos v metallakh pri impulsnom nagruzhenii. FiKHOM, 4, 56–58.

Bodiatko, M. N., Vurzel, F. B., Kremko, E. V. et. al. (1988). Gazotermicheskaia obrabotka keramicheskikh oksidov. Minsk: Nauka i tekhnika, 223.

Emlin, B. I., Gasik, M. I. (1978). Spravochnik po elektrotermicheskim protsessam. Moscow: Metallugriia, 288.

Glinka, N. L. (1984). Obschaia khimiia. Leningrad: Khimiia, 704.

Belkin, P. N. (2005). Elektrokhimiko-termicheskaia obrabotka metallov i splavov. Moscow: Mir, 336.

Blaschuk, V. E., Kareta, N. M., Onoprienko, L. M., Pasinkovskii, E. A. (1986). Vliianie elektrolitnogo azotirovaniiana korrozionnuiu stoikost tekhnicheskogo titana VT1-0. Elektronnaia obrabotka metallov, 3, 20–22.

Duradzhi, V. N., Morar, N. N., Polotebnova, N.A., Kiseeva, L. V. (1986). O fazovom sostave poverkhnosti metallov. obrabotannykh v elektrolitnoi plazme. Elektronnaia obrabotka materialov, 1, 49–52.

Gurevich, S. M., Zamkov, V. N., Blaschuk, V. E. et. al. (1986). Povyshenie korrozionnoi stoikosti nizkolegirovannykh titanovykh splavov azotirovaniem v elektrolite. Metallurgiia i tekhnologiia svarki titana i ego splavov. Kyiv: Naukova Dumka, 240.

Kornilov, I. I., Zabrodskaia, M. N., Boriskina, N. G., Brynza, A. P. (1977). Kinetika dlitelnogo okisleniia titana. Metallovedenie i termicheskaia obrabotka metallov, 5, 49–51.

Kolachev, B. A., Livanov, V. A., Bukhanova, A. A. (1974). Mekhanicheskie svoistva titana i ego splavov. Moscow: Metallurgiia, 544.

Kolachev, B. A., Livanov, V. A., Elagin, V. I. (1981). Metallovedenie i termicheskaia obrabotka tsvetnykh metallov. Moscow: Metallurgiia, 415.

Tsvikker, U. (1979). Titan i ego splavy. Moscow: Metallurgiia, 512.

Malkov, A. V., Gorshkov, Iu. V. (1980). Kompleksnaia metodika opredeleniia kriticheskikh kontsentratsii vodoroda v titanovykh polufabrikatakh i konstruktsiiakh. Voprosy metallovedeniia i tekhnologii legkikh i zharoprochnykh splavov. Moscow: VILS, 160–162.

Blaschuk, V. E. (1989). Povyshenie korrozionnoi stoikosti nizkolegirovannykh titanovykh splavov azotirovaniem v elektrolite. Elektronnaia obrabotka materialov, 5, 18–20.

Chernenko, V. I., Snezhko, L. A., Papanova, I. I. (1991). Poluchenie pokrytii anodno-iskrovym elektrolizom. Leningrad: Khimiia, 128.

Boiko, A. G., Pogrebniak, A. D., Tyurin, Yu. N., Veidzhang, Zh., Golovenko, S. I. (2005). Struktura i svoistva obraztsov iz konstruktsionnoi stali 35 posle elektrolitno-plazmennoi obrabotki. Vestnik SumGU, 4 (76), 101–108.

Gordienko, P. S. (1996). Obrazovanie pokrytii na anodno poliarizovannykh elektrodakh v vodnykh elektrolitakh pri potentsialakh iskreniia i proboia. Vladivostok: Dalnauka, 215.

Atroschenko, E. S., Kazantsev, I. A., Rozen, A. E. (1996). Tekhnologiia polucheniia pokrytii mikrodugovym oksidirovaniem. Novye promyshlennye tekhnologii. Tekhnicheskii progress v atomnoi promyshlennostisti. Seriia – Tekhnologiia montazhnykh rabot. Moscow, 28–33.

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