Planned intervention: On Thursday March 28th 07:00 UTC Zenodo will be unavailable for up to 5 minutes to perform a database upgrade.
Published January 29, 2022 | Version v1
Book Open

Theory and practice of plasma-detonation technology of surface hardening metal products

  • 1. E.O. Paton Electric Welding Institute of the National Academy of Sciences of Ukraine

Description

The book contains data on development of the technologies based on the use of non-stationary electric discharges in plasma jets. Formation of a plasma jet takes place under the effect of non-stationary detonation waves propagating between electrode units. In this case the energy parameters of the plasma can be controlled by a fuel mixture composition, electric potential and geometric characteristics of a device. As a result of interaction with plasma, the treated surface is subjected to pulsed electromagnetic, thermal and elastic-deformation influence. The results of studies of modified layers subjected to pulse plasma treatment are presented.

The book describes technologies and equipment that are commercially applied for modification of working surfaces of machine parts and tools. Examples of application of the technologies in metallurgy, mining industry, wood working, machine building and other industrial sectors are given.

For engineering and technical workers of machine-building enterprises and institutions specializing in the field of hardening processing of products.

Files

Theory and practice of plasma-detonation technology of surface hardening metal products.pdf

Additional details

References

  • Zhuravel, V. M., Bukhanova, I. F., Ilina, A. S. (1983). Povyshenie iznosostoikosti stalei s pomoschiu lazernogo izlucheniia. Proizvodstvenno-tekhnicheskii biulleten, 12, 34–44.
  • Urshanskii, A. I., Anikaev, V. A., Kilin, I. G. (1984). Lazernoe uprochnenie instrumenta dlia prokatki stalei. Moscow, 45.
  • Pamfilov, E. A., Severin, V. D. (1985). Tekhnologicheskoe obespechenie kharakteristik kachestva i iznosostoikosti izdelii pri lazernoi uprochniaiuschei obrabotke. Briansk, 62.
  • Kovalenko, B. C., Golovko, L. F., Merkulov, G. V., Strizhak, A. I.; Kovalenko, V. S. (Ed.) (1981). Uprochnenie detalei luchom lazera. Kyiv: Tekhnika, 241.
  • A. S. No. 396060 (SSSR). Sposob termicheskoi obrabotki detalei mashin OKG v srede azota i SO2.
  • Menin, R., Ramos, E., Magrini, M. (1981). Laser surface treatment of carbon and alloy steels. Proc. 4. Int. Coft. Rapid Quench. Metals. Sendai, 1, 193–196.
  • Medvedovskaia, L. A., Shur, N. F. (1983). Oborudovanie i tekhnologiia lazernoi termicheskoi obrabotki (obzor). Metallovedenie i termicheskaia obrabotka metallov, 4, 34.
  • Mordike, B. L., Bergmann, H. W., Groß, N. (1983). Gaseous alloying with Laser Heating. Materialwissenschaft Und Werkstofftechnik, 14 (8), 253–257. doi: http://doi.org/10.1002/mawe.19830140803
  • Kogan, Ia. D. (1985). KHimiko-termicheskaia obrabotka splavov s primeneniem lazernogo nagreva. 4. Int. Congress of Heat. Treatment of Materials. Berlin, 2, 1393–1402.
  • Moorep, I., McCafferty, E. (1984). Corrosion resistant surface alloys prepared by laser processing. Proc. Conf. International Congress on Metallic Corrosion. Toronto, 2, 636–638.
  • Steffen, N., Erich, K. (1985). Oberflachenbehandlumg von thermisch gespritzen Schichten mittels CO2 – Laser zur Verbesserung des Verschleibverhaltens. Wiss. Z. Hochsch. Verkehrsw. Friedrich List Dresden, 1, 32–41.
  • Pamfilov, E. A., Borzenkova, T. G. (1983). Lazernoe uprochnenie tverdosplavnykh poverkhnostei. Mashinostroitel, 11, 44–46.
  • Soni, P. R., Rajan, T. V. (1985). Laser Beam Machining of High Temperature Ceramic Products. Transactions of the Indian Ceramic Society, 44 (2), 42–47. doi: http://doi.org/10.1080/0371750x.1985.10822731
  • Steen, W. M. (1985). Surface engineering with a laser. Metals and Materials, 1 (12), 730–736.
  • Vainerman, A. E., Kalganov, B. D., Popov, V. O. (1995). Osobennosti sozdaniia i perspektivy primeneniia materialov s osobymi svoistvami poverkhnostnykh sloev. Voprosy materialovedeniia, 1, 116–125.
  • Cordier-Robert, C., Crampon, J., Foct, J. (1998). Surface alloying of iron by laser melting: microstructure and mechanical properties. Surface Engineering, 14 (5), 381–385. doi: http://doi.org/10.1179/sur.1998.14.5.381
  • Chudina, O. V., Borovskaia, T. M. (1994). Uprochnenie poverkhnosti stalei legirovaniem pri lazernom nagreve s posleduiuschei khimiko-termicheskoi obrabotkoi. Metallovedenie i termicheskaia obrabotka metallov, 12, 2–7.
  • Chudina, O. V. (1997). Poverkhnostnoe legirovanie zhelezouglerodistykh splavov s ispolzovaniem lazernogo nagreva. Metallovedenie i termicheskaia obrabotka metallov, 7, 11–14.
  • Ritter, U., Kahrmann, W., Kiipfer, R., Glardont, R. (1992). Laser coating proven in practice. Surface Engineering, 8 (4), 272–274. doi: http://doi.org/10.1179/sur.1992.8.4.272
  • Lugscheider, E., Bolender, H., Krappitz, H. (1991). Laser Cladding of Paste Bound Hardfacing Alloys. Surface Engineering, 7 (4), 341–344. doi: http://doi.org/10.1179/sur.1991.7.4.341
  • Navara, I., Bengtsson, B., Wen-Bin, L. (1983). Surface treatment of steel by laser hardening. VTsP N-L-02747, 8.
  • Sultanov, M. A. (1984). Ob adekvatnosti protsessa abliatsii metallov pri deistvii lazernogo izlucheniia i udarno-szhatoi plazmy. Fizika i khimiia obrabotki materialov, 4, 17–21.
  • Popova, N. V., Fedorova, I. P., Popov, E. G. (1980). Deistvie plazmy vzryva na zhelezouglerodistye splavy. Fizika goreniia i vzryva, 4, 23–28.
  • Kaunov, A. M. (1985). O nekotorykh novykh napravleniiakh KHTO s ispolzovaniem udarnykh voln. Penza, 89.
  • Nosarev, P. S., Dikunov, Iu. G., Tkhai, V. (1985). O vozmozhnosti polucheniia pokrytii pri vozdeistvii bystrykh geterogennykh puchkov. Problemy zaschity metallov ot korrozii. Kazan, 45–49.
  • Safonov, A. N. (1997). Osnovnye napravleniia effektivnogo ispolzovaniia lazernoi tekhniki dlia termicheskoi obrabotki splavov. Metallovedenie i termicheskaia obrabotka metallov, 7, 18–21.
  • Ustanovka dlia poverkhnostnoi zakalki valkov s pomoschiu elektricheskogo razriada (1980). Japan. Zaiavka No. 55-36249.
  • Sposob poverkhnostnogo uprochneniia vysokoenergeticheskim puchkom (1980). Great Britain. Zaiavka No. 2027752.
  • A. S. No. 1092959 (SSSR). Sposob obrabotki metallicheskikh detalei impulsnoi plazmoi v vakuume.
  • A. S. No. 1092960 (SSSR). Sposob poverkhnostnoi zakalki produktami sgoraniia v kamere pod davleniem.
  • A. S. No. 634569 (SSSR). Sposob poverkhnostnoi zakalki stalnykh detalei plazmennoi pushkoi s kapiliarom.
  • Pogrebniak, A. D., Vasiliuk, V. V., Alontseva, D. L., Kravchenko, Iu. A., Ruzimov, Sh. M., Tyurin, Yu. N. et. al. (2004). Struktura i svoistva pokrytii iz nikelevogo splava posle plavleniia elektronnym puchkom. Pisma v ZHurnal tekhnicheskoi fiziki, 30 (4), 78–85.
  • A. S. No. 867040 (SSSR). Sposob termicheskoi obrabotki izdelii puchkom elektronov.
  • A. S. No. 1010875 (SSSR). Ustroistvo dlia poverkhnostnoi zakalki stali primeneniem uskoritelei reliativistskikh elektronov.
  • A. S. No. 1048796 (SSSR). Sposob uprochneniia stalei potokom elektronov.
  • Kumanin, V. I., Livshin, V. B., Platitsin, A. V. (2002). Povyshenie stoikosti press-form pri elektronno-luchevoi obrabotke. Metallurg, 7, 50–51.
  • Tuli, M., Ctrutt, P. R. (1981). Property enhancement in rapidly quenched alloy surfaces. Rapidly Solidified Amorphous and Cryst. Alloys. Proc., Mater. Res., Annu., Meet., Boston, 456–460.
  • A. S. No. 801627 (SSSR). Sposob obrabotki stalnykh izdelii azotirovaniem pered obrabotkoi elektronami.
  • A. S. No. 867040 (SSSR). Sposob termicheskoi obrabotki izdelii elektronnoi pushkoi.
  • A. S. No. 1176605 (SSSR). Sposob poverkhnostnogo uprochneniia izdelii elektronami.
  • Ivanov, S. V., Salmanov, N. S., Salmanov, M. N. (2002). Borosulfokarbonitrirovanie rezhuschego instrumenta v elektrolitnoi plazme. Metallovedenie i termicheskaia obrabotka metallov, 9, 42–43.
  • Arzamastseva, E. P., Zinchenko, V. M. (1980). Elektronno-luchevaia obrabotka – novyi ekonomichnyi metod poverkhnostnogo uprochneniia detalei. Tekhnoologiia avtomobilestroeniia, 5, 23–26.
  • Gusev, O. A., Lazarenko, A. V., Ivanov, B. A. et. al. (1984). Ispolzovanie impulsnogo elektronnogo puchka dlia termicheskoi obrabotki metallov. Metallovedenie i termicheskaia obrabotka metallov, 9, 35–39.
  • Goldenberg, A. A., Polikarpov, V. I. (1984). Vliianie elektronno-luchevoi i lazernoi obrabotki na strukturu i svoistva mashinostroitelnykh materialov (obzor). Vestnik mashinostroeniia, 8, 67.
  • Gonser, T. K. (1981). Computer sharpens EB hardening. Amer. Mach, 11.
  • Hutctings, R. (1986). The improvement of wear resistance by ion implantation. Journal of Southern African Institute of Mining and Metallurgy, 86 (3), 77.
  • Pat. No. 215923 (GDR) (1984). Ustroistvo dlia ionnogo naneseniia tverdykh pokrytii.
  • Picraux, S. T., Peercy, P. S. (1985). Ion Implantation of Surfaces. Scientific American, 252 (3), 102–113. doi: http://doi.org/10.1038/scientificamerican0385-102
  • Vasileva, E. V., Fedorov, A. V., Savicheva, S. M. (1986). Vliianie ionnoi implantatsii na svoistva izdelii iz stali 30KHGSNA. Vestnik mashinostroeniia, 1, 21–25.
  • Vasileva, E. V., Savicheva, S. M., Kriukova, I. V. (1987). Povyshenie iznosostoikosti stali ShKh15 ionnoi implantatsiei. Metallovedenie i termicheskaia obrabotka materialov, 1, 17–23.
  • Kustas, F. M., Misra, M. S. (1984). Application of ion implantation to improve the wear resistance of 52100 bearing steel. Thin Solid Films, 122 (4), 279–286. doi: http://doi.org/10.1016/0040-6090(84)90028-2
  • Poletika, M. F., Vesnovskii, O. K., Kulkov, S. N. (1986). Povyshenie stoikosti rezhuschego instrumenta putem izmeneniia ego kristallicheskoi struktury ionnoi implantatsiei. Poverkhnostnyi sloi, eksplutatsionnye. svoistva detalei mashin i priborov. Moscow, 127–232.
  • Dillish, S. A., Bolster, R. N. (1983). Friction and wear reduction of 440-C stainless steel by ion implantation. Mater. Symp. Boston, 56–59.
  • Dillish, S. A., Bolster, R. N., Singer, I. L. (1983). Friction and wear behavior of a cobalt-based alloy implanted with Ti or N. Ion Implantant and Ion Beam Process. Mater. Symp. Boston, 23–29.
  • Hohmuth, K., Kolitsch, A., Rauschenbach, B., Richer, E. (1984). Beel N flussing mechanischer Eigenschaften durch Ionenimplantation. Neue Hutte, 5, 174–178.
  • Bolster, R. N., Singer, I. L. (1983). The redaction of wear and wear valiability under lubricated sliding by ion implantation. Ion Implantant and Ion Beam Process. Mater. Symp. Boston, 145–148.
  • Singer, I. L. (1983). Tribomechanical propeties of ion implanted metals. Ion Implanted and Ion Beam Process. Mater. Symp. Boston, 111–115.
  • Goltsev, V. P., KHodasevich, V. V., SHpilevskii, E. M. (1985). Puti povysheniia iznosostoikosti metallicheskikh poverkhnostei metodami ionnoi implantatsii i ionno-plazmennoi obrabotki. Trenie, iznos i smazochnye materialy. Trudy konferentsii. Tashkent, 56–59.
  • Gurov, V. M., Korneev, A. A., Liapin, A. I. (1985). Tekhnologicheskie aspekty primeneniia ionno-implantirovannykh materialov v tribotekhnike. Iznos v mashinakh i metody zaschity ot nego. Briansk, Moscow, 78–83.
  • Kaunov, A. M., Burminskaia, L. N., Bukin, V. M., Riadinskaia, I. M. (1985). Formirovanie pokrytii iz smesi poroshkov khroma i grafita pri udarno-volnovoi obrabotke. Poroshkovaia metallurgiia, 15, 25–28.
  • A. S. No. 554690 (SSSR). Sposob obrabotki metallorezhuschego instrumenta iz bystrorezhuschei stali putem obrabotki impulsnym magnitnym polem.
  • A. S. No. 940328 (SSSR). Sposob obrabotki izdelii impulsnym magnitnym polem.
  • UTRC Laser Systems (1977). United Technologies Research Center, 45.
  • Mason, I. H., Wisko, I. H. (1974). Spot and continious Welding with solid state lasers. SME, MR-74, 955. Technical Paper, 79–83.
  • HLP Lasers (1977). AVCOE verett Pesarch Laboratory, 17.
  • Carstens, G. P. (1976). Material Processing with Multykilowatt Lasers. UTPS, 12–18.
  • Kotsiubinskii, O. Iu. (1980). Otsenka tekhnologicheskikh vozmozhnostei zakalki s ispolzovaniem gazovogo lazera nepreryvnogo deistviia. Metallovedenie i termicheskaia obrabotka metallov, 5, 24–26.
  • Borodina, G. G., Kraposhin, V. S., Romanov, Iu. A. et. al. (1983). Struktura tekhnicheskogo zheleza v zone vozdeistviia izlucheniia nepreryvnogo SO2-lazera. Metallovedenie i termicheskaia obrabotka metallov, 4, 32–34.
  • Moriaschev, S. F., Kislitsyn, A. A., Kosyrev, F. K. (1984). Optimizatsiia parametrov protsessa zakalki stali izlucheniem SO2 –lazera. Fizika i khimiia obrabotki materialov, 1, 23–29.
  • Dubrovskaia, E. A., Kopetskii, I. V., Kraposhin, V. S. et. al. (1986). Vybor parametrov lazernogo nagreva uglerodistykh stalei dlia polucheniia zadannoi glubiny zakalki. Metallovedenie i termicheskaia obrabotka metallov, 9, 23–26.
  • Bondoruk, O. F., Seits, S. E. (1981). Povyshenie iznosostoikosti shtampov oblucheniem OKG. Elektrofizicheskie i elektrokhimicheskie metody obrabotki. Moscow, 2.
  • Kornev, V. V., Kosyrev, F. K., Moriaschev, S. F. et. al. (1980). O nekotorykh zavisimostiakh termoobrabotki lazerom. Fizika i khimiia obrabotki materialov, 3, 3–6.
  • Gustav, V. A. et. al. (1986). Vliianie lazernogo oblucheniia na strukturu shtampovoi stali KH12M. CHernaia metallurgiia, 6, 28–29.
  • Tverdokhlebov, T. N., Diachenko, V. S. (1980). Vliianie uslovii lazernoi obrabotki na stoikost instrumenta iz bystrorezhuschei stali. Metallorezhuschee oborudovanie i instrument. Moscow, 17–21.
  • Grechikhin, A. I. (1982). Issledovanie vliianiia izlucheniia nepreryvnogo i impulsnogo lazerov na strukturu i svoistva chugunov. Moscow, 19.
  • Chekanov, N. G. (1981). Vliianie moschnogo izlucheniia SO2-lazera na strukturu i svoistva chugunov, primeniaemykh v avtomobilestroenie. Moscow, 18.
  • Abilsitov, G. A., Golubev, V. S. (1981). Osnovnye problemy lazernoi tekhnologii i tekhnologicheskikh lazerov. NIUTP. Troitsk, 3–39.
  • Lazernaia obrabotka materialov (1977). Ref. Obzor. Riga: LatINTI, 43.
  • Akulina, G. A., Tsyrlin, E. S. (1984). Lazernaia zakalka detalei mashin. Moscow: NIIMash, 64.
  • Lakiza, Iu. V. et. al. (1984). Povyshenie effektivnosti lazernoi obrabotki. LDNTP, 1, 23–28.
  • Travkina, N. T., Nikitin, A. A. (1985). Primenenie lazernoi tekhnologii dlia uprochneniia poverkhnosti metallov i splavov. Chernaia metallurgiia, 18–21.
  • Roitenburg, D. I., Grishko, V. F., Nikitina, A. V. et. al. (1985). Lazernoe uprochnenie flantsa poluosi avtomobilia Kraz-255. Avtomobilnoe proizvodstvo, 8, 32–35.
  • Zhuravel, V. M., Bukhanova, I. F., Maksimov, V. D., Nadiriants, L. R. (1983). Lazernoe uprochnenie detalei. Proizvodstvenno tekhnicheskii biulleten, 10, 10–13.
  • Sedunov, V. K., Kokin, S. D., Stises, G. I. (1984). Metody poverkhnostnogo uprochneniia golovok tsilindrov iz aliuminievogo splava AL4. Avtomobilnoe proizvodstvo, 12, 13–14.
  • Konig, W., Meis, F. I., Schmitz-Justen, C. (1986). Harten mit dem Laserstrahl. VDI – Zeitschrift, 128 (192), 27–31.
  • Lasers in manufacturing (1983). Wilson Michaels "Production", 92 (2), 30–35.
  • Kitani, M., Hiroyaki, K. (1985). Application of industrial robots in machine building. Oe Kakai Kogaku, 26 (8), 118–125.
  • Koelsch, J. (1985). Industrial Lasers – Puttiny Light to Work. Product. Engineering, 32 (9), 50–54.
  • Kawasumi, H. (1985). New Laser Machining Technology in Japan. Technocrat, 18 (6), 18–24.
  • Tower, S., Ehiering, G. (1984). Laser Technology for Industry. 2nd Bien. Int. Mach. Tool Techn. Conf. Chicago, 111 (4), 12/57–12/69.
  • Akulina, G. A., Mechetner, B. Kh., Shnypkin, A. G. (1985). Lazernaia zakalka detalei stankov. Stanki i instrument, 6, 27–29.
  • Brekhovskii, V. F. et. al. (1968). O poverkhnostnoi zakalki stalei izlucheniem OKG. Fizika i khimiia obrabotki materialov, 4, 35–43.
  • Dubniakov, V. N. (1985). Povyshenie iznosostoikosti konstruktsionnykh materialov pri fretting-korrozii. Trenie, iznos i smazochnye materialy. Tashkent, 123–126.
  • Kovalenko, V. S. et. al. (1984). Lazernoe uprochnenie reztsov ugledobyvaiuschikh mashin. Tekhnologiia i organizatsiia proizvodstva, 3, 34–39.
  • Kichigin, A. F., Terentev, O. M., Sergienko, N. I. (1986). Lazernoe uprochnenie detalei gidroprivoda gornykh mashin. Ugol, 2, 22–25.
  • Velikikh, V. S., Goncharenko, V. P., Romanenko, A. V. et. al. (1983). Vliianie lazernoi zakalki na mekhanicheskie svoistva stali 45. Fizika i khimiia obrabotki materialov, 3, 32–34.
  • Velikikh, V. S., Kartantsev, V. S., Romanenko, A. V. (1984). Vliianie lazernoi zakalki na mekhanicheskie svoistva stali 45 s razlichnoi predvaritelnoi termicheskoi obrabotkoi. Fizika i khimiia obrabotki materialov, 2, 15–19.
  • Obnischenko, L. I., Mikhin, N. G., Degobuzov, D. A. et. al. (1983). Vliianie struktury poverkhnostnogo sloia, poluchennogo metodom lazernogo uprochneniia na iznosostoikost stali 40KH. Metallovedenie i termicheskaia obrabotka metallov, 5, 21–28.
  • Edneral, N. V., Lokshiev, V. A., Skakov, Iu. A. (1981). Mikrostruktura stali U10 posle oblucheniia OKG i zakalki iz zhidkogo sostoianiia. Fizika i khimiia obrabotki materialov, 4, 8–15.
  • Betaneli, A. I., Danilenko, L. P., Loladze, T. N. et. al. (1972). Issledovanie vozmozhnosti dopolnitelnogo legirovanie poverkhnosti stali R18 s pomoschiu lucha lazera. Fizika i khimiia obrabotki materialov, 6, 27–32.
  • Pamfilov, E. N., Borzenkova, T. G. (1982). Povyshenie iznosostoikosti tverdykh splavov lazernym uprochneniem. Vestnik mashinostroeniia, 3, 61–63.
  • Kolganov, E. A., Beliaev, G. IA. (1985). Issledovaniia vozmozhnosti uprochneniia tverdykh splavov pri skorostnom nagreve. Mashinostroenie, 10, 73–86.
  • Kardapolova, M. A., Spiridonov, N. V., Stankevich, O. I. (1985). Vliianie rezhimov lazernoi obrabotki na mikrostrukturu samofliusuiuschikhsia splavov. Mashinostroenie, 10, 36–41.
  • Nagano, Yu. (1985). Laser treatment of ceramic materials. Kikai to kogu. Too ep, 5, 29.
  • Spiridonov, N. V., Lutsko, I. I. (1985). Primenenie obrabotki lazerom dlia uvelicheniia iznosostoikosti keramicheskikh pokrytii. Mashinostroenie, 10, 47–50.
  • Obischenko, L. I., Dergozubov, A. A., Gantimirov, B. M. et. al. (1986). Lazernoe termouprochnenie osevoi opory turbobura. Vestnik mashinostroeniia, 1, 26–29.
  • Kremnev, L. S., Vladimirova, O. V., Sagadeeva, T. G. (1985). Uprochnenie rabochikh poverkhnostei plosko-paralelnykh kontsevykh mer dlin lazernym izlucheniem. Fizika i khimiia obrabotki materialov, 3, 14–18.
  • Diachenko, V. S. (1986). Vliianie rezhimov impulsnoi lazernoi obrabotki na strukturu i svoistva bystrorezhuschikh stalei. Metallovedenie i termicheskaia obrabotka metallov, 9, 3–7.
  • Diachenko, V. S. (1985). Osobennosti stroeniia i svoistva bystrorezhuschikh stalei posle lazernoi obrabotki. Metallovedenie i termicheskaia obrabotka metallov, 8, 7–11.
  • Gureev, D. M. (1984). Poverkhnostnaia zakalka stali KhVG impulsnym i nepreryvnym lazernym izlucheniem. Struktura i svoistva deformirovannykh materialov. Kuibyshev, 127–132.
  • Vasilev, V. Iu., Edneral, N. V., Kuzmenko, T. T., Chekanova, N. T. (1982). Vliianie lazernoi obrabotki na korrozionnye svoistva chuguna SCH 24-44 i stali U10. Zaschita metallov, 3, 18–20.
  • Grechin, A. N. (1985). Issledovanie vliianiia izlucheniia nepreryvnogo i impulsnogo lazerov na strukturu i svoistva kovkikh chugunov. Moscow, 19.
  • Velikikh, V. S., Gonchareko, V. P., Zverev, A. F. (1984). Vliianie koeffitsienta perekrytiia "piaten" zakalki na ostatochnye napriazheniia posle lazernoi obrabotki. Metallovedenie i termicheskaia obrabotka metallov, 9, 24–26.
  • Mordike, B. L. (1983). Trends in the development of the application of CO2-Lasers in materials technology. Materialwissenschaft Und Werkstofftechnik, 14 (7), 221–228. doi: http://doi.org/10.1002/mawe.19830140704
  • Konig, W., Meis, F. U., Willerscheid, H., Schmitz-Justen, C. (1985). Problem stellungen beim Laserstreihlharten von Bauteilen. Laser/Optoelectron. Techn. Vortr. 7. Int. Kongr. Laser Optoelectron. Munchen, Berlin, 427–436. doi: http://doi.org/10.1007/978-3-642-82638-2_83
  • Demian, T., Dontu, O. (1984). Asupra durificarii superficiale locale cu laser pentru elemente constructive de mecanica fina. Bul. inst. politehn. Gh.Gheorghin-Dej. Bucuresti. Ser.mec., 70–73.
  • Biriukov, V. P. (1985). Uprochnenie poverkhnostei treniia skaniruiuschim lazernym luchom. Iznos v mashinakh i metody zaschity to nego. Briansk, Moscow, 93–94.
  • Voinov, S. S., Schur, E. A., Kraposhin, V. S. (1986). Lazernaia obrabotka poverkhnosti metallov i splavov. Fizika i khimiia obrabotki materialov, 7, 7–11.
  • Kaiukov, S. V., Iaresko, S. I. (2003). Lazernoe uprochnenie instrumentalnykh stalei profilirovannym impulsnym izlucheniem. Fizika i khimiia obrabotki materialov, 4, 13–18.
  • Rykalin, N. N., Uglov, A. A., Zuev, I. V. (1984). Poluchenie plenok i pokrytii s ispolzovaniem kontsentrirovannykh istochnikov energii. Fizika i khimiia obrabotki materialov, 1, 32–35.
  • Burakov, V. A., Kozakov, V. K., Malinina, E. R. (1997). Priroda i tekhnologicheskie perspektivy lazernogo uprochneniia tverdykh splavov. Progressivnye metody termicheskoi obrabotki v traktornom i selskokhoziaistvennom mashinostroenii. Rostov na Donu, 78–83.
  • Burakov, V. A., Baryshevskaia, B. A. (1981). Lokalnaia tsementatsiia stali v usloviiakh lazernogo nagreva i skorostnoi zakalki. Khimiko-termicheskaia obrabotka metallov i splavov. Minsk, 51–53.
  • Bunep, J., Da, K., Haus-Ioachim (1982). Roloff Lasermaterialbearbeitung-technologien mit zukunft. Schweisstechnik, 4, 21–25.
  • Sepold, G., Bekker, R. (1984). Lazernaia zakalka i legirovanie poverkhnosti. Chernye metally i metallurgiia, 5, 13–19.
  • Suslov, A. G., Kolesnikov, Iu. V., Iniutin, V. P. (1985). Issledovanie vozmozhnostei povyshenie dinamicheskoi poverkhnostnoi prochnosti stalei s pomoschiu lazernogo legirovaniia. Trenie i iznos, 5, 34–39.
  • Burakov, V. A., Brovech, G. I. (1985). Povyshenie teplostoikosti bystrorezhuschikh stalei lazernym legirovaniem. Metallovedenie i termicheskaia obrabotka metallov, 11, 6–13.
  • Zemskii, S. V., Andriiakhin, V. M., Chekanova, N. T. (1983). Nanesenie zaschitnykh pokrytii s pomoschiu lucha lazera. Diffuzionnoe nasyschenie i pokrytiia na metallakh. Kyiv, 8–12.
  • Grigorov, P. K., Stepanov, M. S. (1985). Rezultaty issledovaniia uprochneniia slozhnolegirovannykh stalei karbonitrirovaniem s posleduiuschim lazernym nagrevom. Nadezhnost i kontrol kachestva, 10, 6–8.
  • Sepold, G., Becker, R. (1984). Oberflahenveredlung durch Laserharten und Einlegieren. Stahl und Eisen, 104 (5), 41–43.
  • A. S. No. 910835 (SSSR). Sposob plazmennogo khromirovaniia stali pri toke cherez plazmu.
  • A. S. No. 1026487 (SSSR). Sposob poverkhnostnogo uprochneniia OKG s diffuzionnym legirovaniem i povtoriaiuschimsia nagrevom poverkhnosti.
  • Gorlenko, O. A., Chistov, V. F., Frolov, E. N. (1984). Ekonomiia materialov i energii pri lazernom uprochnenie. Metallovedenie i termicheskaia obrabotka metallov, 5, 29–32.
  • Devoino, O. G., IAkovlev, G. M. (1985). Vliianie skorostnogo nagreva na khrupkost boridnykh pokrytii. Mashinostroenie, 10, 89–96.
  • Lakhtin, Iu. M., Kogan, IA. D. (1983). Poverkhnostnoe uprochnenie stali izlucheniem lazera. Poverkhnostnye metody uprochneniia metallov i splavov. Moscow, 65–67.
  • Lakhtin, Iu. M., Kogan, IA. D., Teplova, L. A. (1984). Uprochnenie poverkhnosti titanovykh splavov lazernym legirovaniem. Metallovedenie i termicheskaia obrabotka metallov, 5, 24–28.
  • Troitskii, V. N., Grebtsov, B. M. (1980). Fiziko-khimicheskie svoistva karbonitridov titana, sintezirovannykh v nizkotemperaturnoi plazme. FiTOM, 2, 21–23.
  • Uglov, A. A., Galiev, A. L. (1981). O pogloscheniia azota rasplavom metalla v zone vozdeistviia lazernogo izlucheniia. Fizika i khimiia obrabotki materialov, 4, 27–31.
  • Rykalin, N. N., Uglov, A. A., Kokora, A. N. (1975). Lazernaia obrabotka materialov. Moscow: Mashinostroenie, 296.
  • Shoroshorov, M. Kh. (2001). Ultradispersnoe strukturnoe sostoianie metallicheskikh splavov. Moscow: Nauka, 155.
  • Morokov, I. D., Trusov, L. I., Chizhik, S. P. (1977). Ultrodispersnye metallicheskie sredy. Moscow: Atomizdat, 264.
  • Diachenko, V. S., Tverdokhlebov, A. A., Korosteleva, A. A. (1984). Osobennosti lazernoi termicheskoi obrabotki instrumenty iz bystrorezhuschei stali. Metallovedenie i termicheskaia obrabotka metallov, 9, 36–39.
  • Mironov, V. M., Mazanko, V. F., Gertsriken, D. S., Filatov, A. V. (2001). Massoperenos i fazoobrazovanie v metallakh pri impulsnykh vozdeistviiakh. Samara: Izd-vo «Samarskii universitet», 232.
  • Isakov, V. V., Medres, B. S., Solovev, A. A. (1983). O teplostoikosti instrumentalnykh stalei, obrabotannykh lazernym izlucheniem. Metallovedenie i termicheskaia obrabotka metallov, 4, 34–39.
  • Burakov, V. V., Fedoseenko, S. S. (1983). Formirovanie struktur povyshennoi iznosostoikosti pri lazernoi zakalke metalloobrabatyvaiuschego instrumenta. Metallovedenie i termicheskaia obrabotka metallov, 5, 4–9.
  • Volkhin, S. A. (1990). Vliianie struktury instrumentalnykh stalei posle zakalki i otpuska na parametry lazerno-uprochnennykh sloev. Sudostroitelnaia promyshlennost, 23, 44–48.
  • Dahotre B. (1989). Laser melting of surface and alloying of steel with chromium. Laser Mater. Process. 3: Proc. 3rd Symp. TMS Fall Meet, Chicago, Warrendale, 3–19.
  • Babushkin, V. B. (1990). Osobennosti strukturoobrazovaniia v bystrorezhuschikh i vysokokhromistykh shtampovykh staliakh pri lazernom nagreve. Izvestiia vysshikh uchebnykh zavedenii. Chernaia Metallurgiia, 4, 68–70.
  • Sobusiak, T., Sokolov, K. N. (1991). Vliianie lazernoi termicheskoi obrabotki na strukturu i svoistva bystrorezhuschei stali. Problemy mashinostroeniia i avtomatizatsii, 5, 45–53.
  • Korotaev, A. D., Tiumentsev, A. N., Sukhovarov, V. F. (1989). Dispersnoe uprochnenie tugoplavkikh metallov. Novosibirosk: Nauka, 211.
  • Poduraev, V. N., Divaev, A. V., Senchenko, A. E. (1990). Uprochnenie tverdosplavnogo rezhuschego instrumenta lazernym i radiatsionnym izlucheniem. Stanki instrumenty, 9, 18–20.
  • Blinovskii, V. A., Brover, G. I., Tsyrbii, I. K. (1991). Sostoianie poverkhnostnykh sloev lazerno-legirovannogo tverdogo splava VK8. Fizika i khimiia obrabotki materialov, 4, 111–115.
  • Mokritskii, B. Ia., Kabaldin, Iu. G. (1991). Kombinirovannoe uprochnenie tverdosplavnogo instrumenta. Fizika i khimiia obrabotki materialov, 5, 153–154.
  • Gureev, D. M., Lamtin, A. P., Chulkin, V. N. (1990). Vliianie impulsnogo lazernogo izlucheniia na sostoianie kobaltovoi prosloiki tverdykh splavov. Fizika i khimiia obrabotki materialov, 1, 51–54.
  • Kombinierte Warmebehandlungsverfahren (1987). Technologier Warmebehandlung. Leipzig: GrundstoffindLisme, 190–205.
  • Gertsriken, D. S., Mazanko, V. F., Tyshkevich, V. M., Falchenko, V. M. (2001). Massoperenos a metallakh pri nizkikh temperaturakh v usloviiakh vneshnego vozdeistviia. Kyiv: RIO IMF, 438.
  • Sliadnikov, E. E. (2000). Kontsentratory napriazhenii – istochnik mikroplasticheskoi deformatsii v nagruzhennom kristalle. Fizicheskaia mezomekhanika, 3 (5), 53–57.
  • Badaeva, V. F., Kaminskii, P. P., Khon, Iu. A. (2000). Avtovolnovye protsessy i lineinaia stadiia plasticheskoi deformatsii poverkhnostno uprochnennoi khromistoi stali. Fizicheskaia mezomekhanika, 3 (5), 47–53.
  • Krasulin, Iu. L. (1981). Ob "anomalnoi" diffuzii v materialakh pri impulsnom nagruzhenii. Fizika i khimiia obrabotki materialov, 4, 34–37.
  • Schneider, J. M., Hjörvarsson, B., Wang, X., Hultman, L. (1999). On the effect of hydrogen incorporation in strontium titanate layers grown by high vacuum magnetron sputtering. Applied Physics Letters, 75 (22), 3476–3478. doi: http://doi.org/10.1063/1.125301
  • Levinskii, Iu. V., Petrov, A. P., Namango Saul, S. (2000). O raspredelenii legiruiuschikh metallov pri poverkhnostnom azotirovanii titanovykh splavov. Metally, 4, 92–96.
  • Bekrenev, A. I., Kirilenko, Iu. N. (1984). Azotirovanie titanovogo splava VT9 posle obrabotki udarnymi volnami. Fizika i khimiia obrabotki materialov, 1, 27–29.
  • Gaiduk, V. V., Volodin, T. V., Zuev, L. B., Volodin, V. L. (2003). Issledovanie vliianiia impulsnykh vozdeistvii na prochnost metallicheskikh materialov. Stal, 12, 71–72.
  • Borovskii, I. B., Gorodskii, D. D., Sharafeev, I. M., Moriaschev, S. F. (1984). O poverkhnostnom legirovanii metallov s pomoschiu nepreryvnogo lazernogo izlucheniia. Fizika i khimiia obrabotki materialov, 1, 37–41.
  • Averin, V. I., Avrov, A. I., Erofeev, M. V., Kalin, A. A. (1984). Rezhimy vozbuzhdeniia i parametry voln napriazhenii v metalle pri vozdeistvii lazernykh mono impulsov. Fizika i khimiia obrabotki materialov, 2, 25–28.
  • Lysenko, A. B., Kozina, N. N., Mirkin, L. I. (1988). Struktura i svoistva evtekticheskikh splavov v zone lazernogo plavleniia. Metallovedenie i termicheskaia obrabotka metallov, 10, 30–34.
  • Matthews, A., Leyland, A. (1995). Hybrid techniques in surface engineering. Surface and Coatings Technology, 71 (2), 88–92. doi: http://doi.org/10.1016/0257-8972(94)01004-3
  • Patentschrift DE 42 05 647 С 2 (1996). Verfahren zur ther-mochemisch-thermischen Behandlung von Einsatzstahlen, 1. 8.
  • Bell, Т., Sun, Y., Cote, S. J. (1992). Duplex surface engineering. Proc. Heat & Surface '92, Japan Techn. Inform. Cent. Tokyo, 1–6.
  • Sun, Y., Bell, T. (1992). Combined Plasma Nitriding and PVD Treatments. Transactions of the IMF, 70 (1), 38–44. doi: http://doi.org/10.1080/00202967.1992.11870939
  • Zlatanović, M. (1991). Deposition of (Ti,Al)N coatings on plasma nitrided steel. Surface and Coatings Technology, 48 (1), 19–24. doi: http://doi.org/10.1016/0257-8972(91)90124-f
  • Soki, M. H., Bell, Т.; Sudarsham, T. S.(Ed.) (1991). Eleccron beam and PVD duplex treatment of AI-Si based alloys. Surface Mod. TechnoL IV. The Minerals, Mecats &. Materials Soc., 795–809.
  • Borger, M.; Henserer, F. (Ed.) (1992). PVD-Schichten fur Zahnrader und Walzlager. Randschichtermudung irn Walzkontakt. Berichtsband. AWT Suhl 1992, 163–171.
  • Leyland, A., Bin-Sudin, M., James, A. S., Kalantary, M. R., Wells, P. B., Matthews, A. et. al. (1993). TiN and CrN PVD coatings on electroless nickel-coated steel substrates. Surface and Coatings Technology, 60 (1-3), 474–479. doi: http://doi.org/10.1016/0257-8972(93)90135-b
  • Kobayashi, M., Katsutoshi, J. (1990). Effect of shot peening on the pitting fatigue strength of carburized gears. Proc. 4th Int. Conf. Shot Peening 1990. Tokyo, 1345–1349.
  • Zenker, R., Frenkler, N., John, W., Günther, U. (1992). Flüssigphasen-Randschichtbehandlung mit dem Elektronenstrahl. HTM Journal of Heat Treatment and Materials, 47 (3), 153–159. doi: http://doi.org/10.1515/htm-1992-470306
  • Dingremont, N., Bergmann, E., Collignon, P. (1994). Anwendung von Duplexschichten fur Druckg formen. Proc. 9. Int. Congr. Heat Treatment and Surface Eng. Nizza, 131–137.
  • Prokhorov, A. M. (1982). Fizicheskie printsipy obrabotki materialov impulsnoi lazernoi plazmoi. Nauchnye osnovy progressivnoi tekhnologii. Moscow: Mashinostroenie, 123–130.
  • Belianin, V. A., Zhukov, A. A., Kokura, A. N. et. al. (1967). Struktura i tverdost poverkhnostnykh sloev stali posle obrabotki luchom lazera. Fizika i khimiia obrabotki materialov, 2, 115–116.
  • Andriiakhin, V. M., Fishkis, M. M. (1980). Lazery i perspektivy ikh primeneniia v avtomobilestroenii. Moscow: NIIAvtoprom, 47.
  • Drapkin, B. M., Rudenko, V. A. (1882). Ob opredelenie energii sublimatsii metallov. Zhurnal tekhnicheskoi fiziki, 62 (6), 125–138.
  • Uglov, A. A., Kokora, A. N. (1977). Teplofizicheskie i gidrodinamicheskie iavleniia pri obrabotke materialov luchom lazera. Kvantovaia elektronika, 4 (6), 7–12.
  • Golub, A. P., Loseva, T. V., Nemchinov, I. V. (1981). Teoreticheskie otsenki vzaimodeistviia impulsov izlucheniia lazera s pregradoi, okruzhennoi gazom vysokogo davleniia v usloviiakh ploskoi geometrii. Fizika i khimiia obrabotki materialov, 1, 51–52.
  • Mirkin, L. I. (1975). Fizicheskie osnovy obrabotki materialov luchami lazera. Moscow: Izdatelstvo Moskovskogo universiteta, 384.
  • Rykalkin, N. N., Zuev, I. V., Uglov, A. A. (1976). Osnovy elektronnoluchevoi obrabotki materialov. Moscow: Mashinostroenie, 231.
  • Vaisburg, D. I., Semin, B. N., Gavanov, E. G. (1982). Vysokoenergeticheskaia elektronika tverdogo tela. Novosibirsk: Izd. "Nauka", Sibirskoe otdelenie, 173.
  • Lifshits, K. M., Pitaevskii, L. P. (1979). Fizicheskaia kinetika. Moscow: Nauka, 528.
  • Martens, V. Ia. (1996). Sloi mezhdu plazmoi i otritsatelnym elektrodom pri nalichii potokov zariazhennykh chastits. Zhurnal tekhnicheskoi fiziki, 66 (5), 70–79.
  • Brekhovskii, V. D., Zhukov, A. A., Kokora, A. N., Uglov, A. A. (1968). O poverkhnostnoi lokalnoi zakalke stalei izlucheniem OKG. Fizika i khimiia obrabotki materialov, 4, 47–48.
  • Iudaev, B. N. (1981). Teploperedacha. Moscow: Vysshaia shkola, 234.
  • Uglum, J. R., Bacon, J. L., Davis, D. G., Polizzi, R. J., Sledge, R. L., Zowarka, R. C. (1997). Scaling Analysis of the Electromagnetic Powder Deposition (EPD) Gun. Thermal Spray 1997: Proceedings from the United Thermal Spray Conference, 373–391. doi: http://doi.org/10.31399/asm.cp.itsc1997p0385
  • Lebedev, A. D., Uriukov, B. A. (1990). Impulsnye uskoriteli plazmy vysokogo davleniia. Novosibirsk, 280.
  • Levin, V. A. (1975). Rasprostranenie udarnykh i detonatsionnykh voln v goriuchikh gazakh. Moscow, 320.
  • Katushev, A. G., Tatosov, A. V. (1998). Matematicheskoe modelirovanie vybrosa gazovzvesi iz kanala udarnoi truby pod deistviem szhatogo gaza. Fizika goreniia i vzryva, 34 (3), 107–116.
  • Chernyi, G. G. (1988). Gazovaia dinamika. Moscow: Nauka, 415.
  • Demutskii, V. P., Polovin, R. V. (1961). Ob udarnoi ionizatsii i detonatsii i magnitnoi gidrodinamike. Zhurnal tekhnicheskoi fiziki, 31 (2), 17–21.
  • Larit, E., Shekhtman, I. (1959). Rasprostranenie detonatsionnoi volny v prisutstvii magnitnogo polia. Zhurnal tekhnicheskoi fiziki, 8 (1), 87–90.
  • Liubimov, G. A. (1960). Vliianie elektromagnitnogo polia na detonatsionnyi rezhim. DAN SSSR, 4 (1), 52–61.
  • Helliwell, J. B. (1962). Gas-ionizing shock and combustion waves in magnetogasdynamics. Journal of Fluid Mechanics, 14 (3), 405–419. doi: http://doi.org/10.1017/s0022112062001329
  • Helliwell, I. B. (1963). Magreto gas dynamic defloration and detonation waves with ionization. I. Fluid Mech, 16, 243.
  • Kelly, J. R., Toong, T. Y. (1967). Detonation wave in electromagnetic field. Symposium (International) on Combustion, 11 (1), 657–664. doi: http://doi.org/10.1016/s0082-0784(67)80190-5
  • Salamandra, G. D., Venttsel, N. M., Fedoseeva, I. K. (1976). Vliianie poperechnogo elektricheskogo polia na raspredelenie skorosti gaza vblizi fronta plameni. Fizika goreniia i vzryva, 2, 229–233.
  • Burenin, Iu. A., Shvetsov, G. A. (1977). Issledovanie koaksialnogo MGD – generatora vzryvnogo tipa. Fizika goreniia i vzryva, 13 (1), 130–132.
  • Plett, E. G., Toong, T. Y. (1969). Electromagnetic effect on flow behind gaseous detonations. AIAA Journal, 7 (6), 1127–1133. doi: http://doi.org/10.2514/3.5285
  • Soloukhin, R. I., Iakobi, Iu. A., Iakovlev, V. I. (1977). Issledovanie ravnovesnoi zony za frontom ioniziruiuschei UV. Fizika goreniia i vzryva, 13 (3), 481–483.
  • Kulikovskii, A. G., Liubimov, G. A. (1962). Magnitnaia gidrodinamika. Moscow: Izd. fiz. mat. lit., 248.
  • Fay, J. A. (1959). Two-Dimensional Gaseous Detonations: Velocity Deficit. Physics of Fluids, 2 (3), 283. doi: http://doi.org/10.1063/1.1705924
  • Vatazhin, A. B., Liubimov, G. A., Regirer, S. A. (1970). Magnitogidrodinamicheskie techeniia v kanalakh. Moscow: Nauka, 672.
  • Uizem, Dzh. (1977). Lineinye i nelineinye volny. Moscow: Mir, 604.
  • Shi-i, B. (1960). Teoriia strui. Moscow: Gosud. izd-vo fiziko-matemat. literatury, 328.
  • Andelfinger, K. (1971). Metody issledovaniia bystroprotekaiuschikh protsessov v fizike plazmy. Fizika bystroprotekaiuschikh protsessov v fizike plazmy. Moscow: Mir, 360.
  • Lokht-Kholgreven, V. (Ed.) (1971). Metody issledovaniia plazmy. Moscow: Mir, 552.
  • Kasabov, G. A., Eliseev, V. V. (1973). Spektroskopicheskie tablitsy dlia nizkotemperaturnoi plazmy. Moscow: Atomizdat, 160.
  • Grim, G. (1978). Ushirenie spektralnykh linii v plazme. Moscow: Mir, 491.
  • Minko, L. Ia. (1979). Poluchenie i issledovanie impulsnykh plazmennykh potokov. Minsk: NiT, 181.
  • Sultanov, M. A. (1981). Udarnoszhataia plazma v moschnykh impulsnykh razriadakh. Dushanbe: Donish, 281.
  • Voloshin, M. N., Gasin, D. A., Korableva, I. R., Skliarenko, N. N. (1994). Osobennosti uprochneniia stali U8 s pomoschiu impulsno-plazmennoi obrabotki. Fizika i khimiia obrabotki materialov, 1, 16–20.
  • Gurev, V. A., Tesker, V. I. (1996). Primenenie lazernoi obrabotki dlia formirovaniia poverkhnostnogo sloia normalizovannoi stali s vysokimi tribotekhnicheskimi i viazkimi svoistvami. Fizika i khimiia obrabotki materialov, 1, 14–19.
  • Leschinskii, L. K., Smotugin, S. S., Pirch, I. I. (1990). Plazmennoe poverkhnostnoe uprochnenie. Kyiv: Tekhnika, 109.
  • Dong, C., Wu, A. M., Hao, S. Z., Zhang, A. M., Xu, T., Xu, J. et. al. (2003). High-current pulsed electron beam: rapid surface alloing and wear resistance improyement. Acta Metallurgica Sinica, 16 (14), 276–282.
  • Lebedev, V. K., Kaleko, D. M. (1998). Impulsnaia dugovaia termicheskaia obrabotka poverkhnosti metallov. Metallovedenie i termicheskaia obrabotka metallov, 6, 8–12.
  • McCay, M. N., Dahofre, N. B., Hopkins, J. A., McCay, T. D. (1999). The influence of metals and carbides during laser surface modification of low alloy steel. Journal of Materials Science, 34 (23), 5789–5802. doi: http://doi.org/10.1023/a:1004762319012
  • Suminov, I. V., Klopikov, E. B., Semenikhin, N. A., Pentiuk, S. A., Zasetskii, Iu. A. (1991). Issledovanie strukturno-fazovykh prevraschenii v uglerodistykh staliakh pri sovmestnom vozdeistvii lazernogo izlucheniia i magnitnogo polia. Fizika i khimiia obrabotki materialov, 3, 44–47.
  • Bolesta, A. V., Golovnev, I. F., Fomin, V. M. (2000). Issledovanie protsessa soudareniia sfericheskogo klastera medi s zhestkoi stenkoi metodom molekuliarnoi dinamiki. Fizicheskaia mezomekhanika, 3, 39–46.
  • Gertsriken, D. S., Skripnichenko, A. L., Tishkevich, V. M., Falchenko, V. M., CHachin, V. N. (1987). Vliianie impulsnogo magnitnogo polia i rastiagivaiuschikh napriazhenii na podvizhnost atomov nikelia i medi. Vestsi AN BSSR, 4, 45–49.
  • Gertsriken, D. S., Kostiuchenko, V. G., Tishkevich, V. M., Falchenko, V. M. (1997). Vliianie plasticheskoi deformatsii v impulsnom magnitnom pole na migratsiiu atomov v metallakh. Dok. NAN Ukrainy, 3, 78–81.
  • Gertsriken, D. S., Mazanko, V. F., Falchenko, V. M. (1991). Impulsnaia obrabotka i massoperenos v metallakh pri nizkikh temperaturakh. Kyiv: Naukova Dumka, 208.
  • Tyurin, Yu. N. (1999). Sovershenstvovanie oborudovaniia i tekhnologii detonatsionnogo naneseniia pokrytii. Avtomaticheskaia svarka, 5, 13–18.
  • Iuschenko, K. A., Borisov, Iu. S., Tyurin, Yu. N. (1994). Teoriia i praktika impulsno-plazmennogo modifitsirovaniia poverkhnosti detalei mashin i instrumenta. Svarochnoe proizvodstvo, 5, 23–25.
  • Borisov, Iu. S., Tyurin, Yu. N. (1992). Uprochniaiuschaia obrabotka detalei vysokoenergeticheskoi plazmoi. Kyiv, 37.
  • Kidin, I. N. (1969). Fizicheskie osnovy elektrotermicheskoi obrabotki metallov i splavov. Moscow: Metallurgiia, 376.
  • Gridnev, V. N., Meshkov, Iu. A., Oshkaderov, S. P., Trefilov, V. I. (1973). Fizicheskie osnovy elektrotermicheskogo uprochneniia stali. Kyiv: Naukova dumka, 335.
  • Efimov, N. A., Korzhova, N. P., Lotsko, D. V., Tyurin, Yu. N. (1994). Zaschitnye pokrytiia na metallakh. Kyiv: Naukova dumka, 1994, 28, 14–18.
  • Mordovets, N. M., Borisov, Iu. S., Rachek, A. P., Tyurin, Yu. N. (1994). Struktura, kristallograficheskaia tekstura i mikrotverdost v pripoverkhnostnom sloe uglerodistoi stali, modifitsirovannoi impulsno-plazmennym metodom. Kyiv: Naukova dumka, 28, 50–57.
  • Borisov, Iu. S., Kolisnichenko, O. V. (2003). Vliianie uslovii nagreva poverkhnosti izdeliia na strukturu uprochnennykh sloev stali U8 pri plazmenno-detonatsionnoi obrabotke. Avtomaticheskaia svarka, 3, 31–35.
  • Pogrebniak, A. D., Tyurin, Yu. N. (2003). Impulsno-plazmennaia modifikatsiia svoistv poverkhnosti i nanesenie pokrytii. Uspekhi fiziki metallov, 4 (1), 1–66.
  • Kovalenko, V. S. (Ed.) (1985). Spravochnik po tekhnologii lazernoi obrabotki. Kyiv: Tekhnіka, 167.
  • Kikin, P. Iu., Pchelintsev, A. I., Rusin, E. E. (2003). Povyshenie teplostoikosti i iznosostoikosti bystrorezhuschikh stalei lazernym udarno-volnovym vozdeistviem. Fizika i khimiia obrabotki materialov, 5, 15–17.
  • Kovalenko, V. S., Golovko, L. F., Chernenko, V. S. (1990). Uprochnenie i legirovanie detalei mashin luchom lazera. Kyiv: Tekhnika, 192.
  • Samotugin, S. S., Muratov, V. A., Kovalchuk, A. V. et. al. (1995). Plazmennoe uprochnenie rabochikh organov selskokhoziaistvennykh mashin. Vestnik PGTU, 1, 173–175.
  • Samotugin, S. S. (1996). Plazmennaia obrabotka instrumentalnykh materialov. Avtomaticheskaia svarka, 8, 48–51.
  • Leschinskii, L. K., Samotugin, S. S., Goritskii, V. M. et. al. (1996). Struktura i treschinostnoikost naplavlennogo metalla 18KH6GMFS posle plazmennogo uprochneniia. Avtomaticheskaia svarka, 8, 31–35.
  • Leshchinsky, L. K., Samotugin, S. S. (2001). Mechanical properties of plasma-hardened 5 % – chromium tool steel deposited by arc welding. Welding Journal, 1, 25–30.
  • Samotugin, S. S., Lavrik, V. P., Leschinskii, L. K., Solianik, N. Kh. (2001). Plazmennaia obrabotka ekonomnolegirovannogo teplostoikogo naplavlennogo metalla. Problemy spetsialnoi elektrometallurgii, 2, 26–31.
  • Molian, P. A. (1987). Fatigue Characteristics of Laser Surface-Hardened Cast Irons. Journal of Engineering Materials and Technology, 109(3), 179–187. doi: http://doi.org/10.1115/1.3225961
  • Rie, K.-T. (1999). Recent advances in plasma diffusion processes. Surface and Coatings Technology, 112 (1-3), 56–62. doi: http://doi.org/10.1016/s0257-8972(98)00747-6
  • Grigoriants, A. G., Safonov, A. N., Ivashov, G. P. et. al. (1987). Issledovanie impulsnoi lazernoi zakalki shtampovoi osnastki. Kuznechno-shtampovochnoe proizvodstvo, 12, 22–23.
  • Vinokurov, A. V. (2001). Osobennosti protsessa plazmenno-dugovogo oplavleniia gazotermicheskikh pokrytii. Voronezh: Voronezh. gos. lesotekhn. akad, 37–42.
  • Ivanov, Iu. F., Lychagin, D. V., Gromov, V. E., Tsellermaer, V. V., Sosnin, O. V. et. al. (2000). Mezoskopicheskaia substruktura i elektroimpulsnoe podavlenie ustalostnogo razrusheniia. Fizicheskaia mezomekhanika, 3 (1), 103–108.
  • Sorokin, V. M., Shetulov, D. I. (1983). Fiziko-mekhanicheskie svoistva pokrytii i stalei osnovy posle udarno-impulsnogo vozdeistviia. Fizika i khimiia obrabotki materialov, 3, 43–46.
  • Ilinskii, V. A., Zhukov, A. A.. Kostylev, L. V., Loktiushin, V. A. (1998). Sverkhbystroe pereraspredelenie ugleroda v tsementovannykh sloiakh stalnykh izdelii. Metally, 3, 46–50.
  • Pogrebniak, A. D., Tyurin, Yu. N., Vasiliuk, V. V. et. al. (2004). Dupleksnaia obrabotka nikelevogo splava, nanesennogo na podlozhku iz stali 3. Trenie i iznos, 25 (1), 71–77.
  • Vasilev, M. A., Kozlov, A. V., Prokopenko, G. I., Mordiuk, B. N. (1995). Massoperenos pri UZ udarnoi obrabotke pary Cu-Al. Metallofizika i noveishie tekhnologii, 11, 34.
  • Bekrenev, A. N., Vasilev, M. A. (1996). Diffuziia v kristallicheskikh tonkikh plenkakh pod deistviem millisekundnykh lazernykh impulsov. Fizika i khimiia obrabotki materialov, 6, 14–19.
  • Varavka, V. N., Dombrovskii, Iu. M., SHabarinov, A. V. (2003). O strukturnykh effektakh v zone obrabotki materialov kontsentrirovannymi potokami energii. Vestn. Don. gos. tekhn. un-ta, 3 (4), 445–452.
  • Maning, D. R. (1971). Kinetika diffuzii atomov v kristallakh. Moscow: Mir, 278.
  • Volosevich, V. P., Pogorelov, A. E. (1986). Osobennosti strukturnykh izmenenii v armko zheleze posle vozdeistviia dokriticheskikh potokov impulsnogo izlucheniia OKG. Poverkhnost, 9, 47–58.
  • Mazanko, V. F., Pogorelov, A. E. (1984). Migratsiia atomov tseziia v zheleze pri impulsnom vozdeistvii izlucheniia OKG. Metallofizika, 4, 46–52.
  • Prokopenko, G. I., Liatun, T. A. (1977). Issledovanie rezhimov poverkhnostnogo uprochneniia s pomoschiu ultrazvuka. Fizika i khimiia obrabotki materialov, 3, 27–29.
  • Konstantinov, E. G., Tarachenko, E. A., Mikhailov, IU. V. (2003). Issledovanie vliianiia termotsiklicheskoi obrabotki na strukturu i svoistva kremnistoi stali 60S2. Sovremennye tekhnologii i materialovedenie. Magnitogorsk: Izd-vo MGTU, 119–125.
  • Bekrenev, A. N., Filina, E. A. (1991). Vliianie lazernogo legirovaniia na izmenenie fiziko-mekhanicheskikh svoistv poverkhnostnykh sloev titana. Fizika i khimiia obrabotki materialov, 4, 32–26.
  • Voss, A., Funken, J., Alunovic, M., Sung, H., Kreutz, E. W. (1992). Removal and transfer of material in laser-assisted physical vapour deposition of ceramics. Thin Solid Films, 220 (1-2), 116–121. doi: http://doi.org/10.1016/0040-6090(92)90558-s
  • Modelling of Laser Hard-Facing of Steels with Carbide Powder Injection (1990). BRITE/EURAM Programme. Luxemb: OOPEC, 337.
  • Kharaev, Iu. P. (2002). Predvaritelnaia termotsiklicheskaia obrabotka litogo instrumenta. Problemy i perspektivy razvitiia liteinogo, svarochnogo i kuznechno-shtampovochnogo proizvodstv. Barnaul: Izd-vo AltGTU, 254–255.
  • Yuschenko, K. A., Borisov, Y. S., Tyurin, Yu. N. (1992). Coating and Surface Modifying Jnternational with the Help of Advances in Plasma-Detonation Coating Treatment Deposition Thermal Spray. Technology. Orlando, 78–81.
  • Verkhoturov, A. D., Podchernyayeva, I. A., Linkina, L. D. (1990). Formation of hardening coatings made of powder components based on mineral raw material under affect of concentrated energy flows/CEF. 7th Int. Congr. Heat Treat. Mater. Moscow, 368–375.
  • Petrov, S. V., Karp, I. N. (1993). Plazmennoe gazovozdushnoe napylenie. Kiev, Naukova dumka, 490.
  • Raizer, Iu. P. (1992). Fizika gazovogo razriada. Moscow: Nauka. Gl. red. fiz.-mat. lit., 536.
  • Tyurin, Yu. N. (1997). Osnovy tekhnologii poverkhnostnogo uprochneniia izdelii plazmoi elektricheskogo razriada. Kyiv, 485.
  • Povkh, I. L. (1969). Tekhnicheskaia gidromekhanika. Leningrad: Mashinostroenie, 524.
  • Loitsianskii, L. G. (1978). Mekhanika zhidkosti i gazov. Mosocw: Nauka. Gl. red. Fiz.-mat. lit-ry., 736.
  • Krivtsun, I. V. (2001). Model ispareniia metalla pri dugovoi, lazernoi i lazerno-dugovoi svarke. Avtomaticheskaia svarka, 3, 3–10.
  • Gordeev, V. F., Pustogarov, A. V. (1988). Termoemissionnye dugovye katody. Moscow: Energoatomizdat, 192.
  • Ekker, G. (1982). Voprosy teorii vakkumnoi dugi. Vakuumnye dugi. Moscow: Mir, 267–384.
  • Babichev, A. P., Babushkina, N. A., Bratkovskii, A. M. et. al.; Grigoreva, I. S., Meilikhova, E. Z. (Eds.) (1991). Fizicheskie velichiny. Moscow: Energoatomizdat, 1232.
  • Anderson, D., Tannekhill, Dzh., Pletcher, R. (1990). Vychislitelnaia gidromekhanika i teploobmen. Vol. 1. Moscow: Mir, 384.
  • Samarskii, A. A. (1987). Vvedenie v chislennye metody. Moscow: Nauka. Gl. red. fiz.-mat., lit., 288.
  • Samarskii, A. A., Gulin, A. V. (1989). Chislennye metody. Moscow: Nauka. Gl. red. fiz.-mat., lit., 432.
  • Pogrebnyak, A. D., Tyurin, Y. N., Kobzev, A. P. (2001). High-speed plasma jet modification and doping of α-Fe. Technical Physics Letters, 27 (8), 619–621. doi: http://doi.org/10.1134/1.1398947
  • 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
  • Lumei, W., Liyan, D. (1998). Laser alloying on chromium-coated surface of nodular cast iron. Trans. Nonferrous Metals Soc, 8 (3), 496–499.
  • Grigoriants, A. G. (1989). Osnovy lazernoi obrabotki materialov. Moscow: Mashinostroenie, 300.
  • De Rességuier, T., Hallouin, M. (1998). Stress relaxation and precursor decay in laser shock-loaded iron. Journal of Applied Physics, 84 (4), 1932–1938. doi: http://doi.org/10.1063/1.368322
  • Tsukamoto, F., Uchiyama, F., Fons, P., Yanagisawa, T., Kaga, Y., Okuo, T. (1995). A micro laser spray technique for depositing extremely fine patterns. Proceedings of ITSC'95. Kobe, 345–349.
  • Draper, C. W., Poate, J. M. (1983). Surface modification and alloy by laser, lin and electron beams. Proc. NATO adv. Study inst. New York, London, 385–404.
  • A. S. No. 1557193. Sposob lazernogo legirovaniia poverkhnosti.
  • Berdnikov, A. A, Demin, V. S., Serebriakova, E. D. et. al. (1995). Uprochnenie chugunnykh valkov metodom plazmennoi zakalki. Stal, 1, 56–59.
  • Kraposhin, V. S., Kurochkin, Iu. V., Mukhanov, G. V. (1989). Skorostnoe rasplavlenie poverkhnosti vysokoprochnogo chuguna plazmenno-dugovym razriadom. Fizika i khimiia obrabotka materialov, 3, 65–70.
  • Stavrev, D. S., Nikov, N. Ia. (1985). Uprochnenie serykh chugunov pri poverkhnostnom otbele nizkotemperaturnoi plazmoi. Metallovedenie i termicheskaia obrabotka metallov, 4, 15–18.
  • Ishida, T. (1983). Local melting of nodular cast iron by plasma arc. Journal of Materials Science, 18 (6), 1773–1784. doi: http://doi.org/10.1007/bf00542074
  • Shepelev, N. S., Selivanov, M. V., Chepyzhev, I. S. et. al. (1988). Uprochnenie rabochikh poverkhnostei chugunnykh detalei avtomobilei metodom plazmennogo oplavleniia. Metallovedenie i termicheskaia obrabotka metallov, 12, 34–36.
  • Zhukov, A. A., Shilina, E. N., Bron, D. I. et. al. (1985). Plazmennoe oplavlenie poverkhnostnogo sloia chuguna posle elektroiskrovogo legirovaniia. Elektronnaia obrabotka metallov, 3, 25–33.
  • Samotugin, S. S., Kovalchuk, A. V., Solianik, N. Kh., Puiko, A. V. (1996). Struktura i viazkost razrusheniia vysokoprochnogo perlitno-tsementitnogo chuguna posle plazmennoi obrabotki. Metallovedenie i termicheskaia obrabotka metallov, 4, 2–6.
  • Molian, P. A. (1987). Fatigue Characteristics of Laser Surface-Hardened Cast Irons. Journal of Engineering Materials and Technology, 109 (3), 179–187. doi: http://doi.org/10.1115/1.3225961
  • Gureev, D. M. (1998). Strukturoobrazovanie pri lazerno-ultrazvukovom rasplavlenii poverkhnosti bystrorezhuschikh stalei. Fizika i khimiia obrabotki materialov, 2, 41–44.
  • Girzhon, V. V., Anpilogov, D. I. (1997). Vliianie impulsnoi lazernoi obrabotki na strukturu legirovannogo chuguna. Metallovedenie i termicheskaia obrabotka metallov, 4, 11–13.
  • Bloschanevich, A. M., Kovalchenko, M. S., Paustovskii, A. V., Pasichnyi, V. V. (1989). Sravnitelnyi analiz vozdeistviia kontsentrirovannoi solnechnoi energii i lazernogo izlucheniia na svoistva tverdykh splavov. Poroshkovaia metallurgiia, 9, 71–82.
  • Brover, G. I., Pustovoit, V. N., Brover, A. V., Komissarov, A. V. (2002). Lazernoe uprochnenie titanovykh splavov. Nauka – tekhnika – tekhnologii. Nakhodka: Izd-vo In-ta tekhnol. i biznesa, 9–10
  • Stratton, P. F. (2003). Surface hardening of titanium. Heat Treatment of Metals, 30 (1), 8–12.
  • Pogrebniak, A. D., Sokolov, S. V., Bazyl, E. A., Tyurin, Yu. N., Kshniakin, V. S. (2001). Modifikatsiia poverkhnostnogo sloia titanovykh splavov impulsno-plazmennoi obrabotkoi. Fizika i khimiia obrabotki materialov, 4, 49–55.
  • Tyurin, Yu. N., Adeeva, L. I. (1999). Impulsno-plazmennoe uprochnenie splavov na osnove titana. Avtomaticheskaia svarka, 3, 43–47.
  • Valiaev, A. N., Pogrebniak, A. D., Plotnikov, S. V. (1998). Radiatsionno-mekhanicheskie effekty v tverdykh telakh pri obluchenii vysokoenergeticheskimi impulsnymi elektronnymi i ionnymi puchkami. Almaty: Gylym, 245.
  • Uglov, A. A, Smurov, I. Iu., Gorbach, A. F. (1989). Teplovye protsessy pri lazerno-plazmennom sinteze karbidov tugoplavkikh metallov. Poverkhnost. Fizika, khimiia, mekhanika, 9, 36–42.
  • Eshbi, I. F. (1972). O napriazhenii Orovanna. Fizika prochnosti i plastichnosti. Moscow: Metallurgiia, 88–107.
  • Petch, N. J. (1953). The cleavage strength of polycrystalline. The Journal of the Iron and Steel Institute, 173 (1), 25–28.
  • Orowan, E. (1954). Dislocation in Metals. New York: AIME, 103.
  • Ashby, M. F. (1983). Mechanisms of deformation and fracture. Advances in Applied Mechanics, 117–177.
  • Romaniv, O. N. (1979). Viazkost razrusheniia konstruktsionnykh stalei. Moscow: Metallurgiia, 176.
  • Konstantinova, T. E., Primisler, V. B., Dobrikov, A. A., Volkova, G. K., Liafer, E. I. (1991). Mekhanizmy plasticheskoi deformatsii vysokoprochnoi martensitno-stareiuschei stali. Metallofizika, 13 (5), 62–68.
  • Tyurin, Yu. N., Kolisnichenko, O. V., Tsigankov, N. G. (2001). Impulsno-plazmennoe uprochnenie instrumenta. Avtomaticheskaia svarka, 1, 38–44.
  • Pogrebniak, A. D., Tyurin, Yu. N., Kulmenteva, O. P., Kshniakin, V. S., Kolisnichenko, O. V. (2002). Uprochnenie i massoperenos pri impulsnoi plazmenno-detonatsionnoi obrabotke stalei. Fizika i khimiia obrabotki materialov, 2, 40–48.
  • Tyurin, Yu. N., Zhadkevich, M. L., Kolisnichenko, O. V. (2003). Impulsno-plazmennoe uprochnenie instrumenta i detalei mashin. Doklad. Materialy v avtomobilestroenie. Toliati-Samara, 234–238.
  • Tyurin, Yu. N., Kulkov, S. N., Kolisnichenko, O. V. (2009). Impulsno-plazmennoe uprochnenie kalibrov tverdosplavnykh prokatnykh shaib. Chernye metally, 10, 10–14.
  • Tyurin, Yu. N., Kulkov, S. N., Kolisnichenko, O. V., Duda, I. M. (2009). Impulsno-plazmennoe modifitsirovanie poverkhnosti izdeliia iz splava WC + 20%Co. Fіzichna іnzhenerіia poverkhnі, 7 (3), 262–267.
  • Nekoz, O. I., Tiurin, Yu. M., Kolisnichenko, O. V., Batrachenko, O. V. (2010). Impulsno-plazmove zmitsnennia nozhiv kutera. Suchasni problemy trybolohii. Kyiv, 180.
  • Tyurin, Yu. N., Kolisnichenko, O. V., Duda, I. M., Khong, K. CH., Chzhun, K. Kh. (2010). Legirovanie i nanostrukturirovanie poverkhnosti shtampovoi stali. Chernye metally, 11, 11–16.
  • Tyurin, Yu. N., Kolisnichenko, O. V., Duda, I. M., Khong, K. CH., Chzhun, K. Kh. (2010). Iznosostoikost valkovykh chugunov posle impulsno-plazmennoi obrabotki. Chernye metally, 12, 14–17.
  • Nekoz, O. I., Kolisnichenko, O. V., Zdislav, K. Z., Batrachenko, O. V.; Kindrachuk, M. V. (Ed.) (2010). Impulsno-plazmove zmitsnennia nozhiv miasorizalnykh vovchkiv. Problemy tertia ta znoshuvannia, 54, 172–180.
  • Tyurin, Yu. N., Kolisnichenko, O. V., Duda, I. M. (2011). Impulsno-plazmennoe uprochnenie poverkhnosti vysokoprochnykh chugunov. Svarschik, 2 (78), 20–23.
  • Tyurin, Yu. N., Kolisnichenko, O. V., Tishenko, A. N., Kovaleva, M. G., Prozorova, M. S., Arseenko, M. Iu., Smoliakova, M. Iu. (2013). Struktura i svoistva modifitsirovannogo plazmoi sloia na rabochei poverkhnosti nozhei dlia rezki prokata v metallurgicheskom proizvodstve. Uprochniaiuschie tekhnologii i pokrytiia, 3, 28–33.
  • Markashova, L. I., Tyurin, Yu. N., Kolisnichenko, O. V., Valevich, M. P., Bogachev, D. G. (2013). Effect of structure parameters on mechanical properties of steel R6M5 under conditions of strengthening surface treatment. Avtomaticheskaia svarka, 12, 18–23.
  • Tyurin, Yu. N., Markashova, L. I., Kolisnichenko, O. V., Duda, I. V., Valevich, M. L., Bogachev, D. G. (2014). Impulsno-plazmennoe modifitsirovanie rabochei poverkhnosti instrumenta iz bystrorezhuschei stali. Svarschik, 4, 30–32.
  • Tyurin, Yu. N., Zhadkevich, M. L. Plazmennye uprochniaiuschie tekhnologii. Kyiv: Naukova dumka, 216.