How to cite this paper
Il’yaschenko, D., Chinakhov, D., Makarov, S., Danilov, V., Galinsky, A & Verkhoturova, E. (2020). Effect of ultra-disperse powder in electrode coating on properties of welds in MMA welding.Engineering Solid Mechanics, 8(1), 41-48.
Refrences
Boldyrev, A.M., Grebenchuk, V.G. & Gushhin, D.A. (2014a). Effect of titanium dioxide in the composition of the metal-chemical additive on the mechanical properties of the weld metal of steel 10HSND. Welding and Diagnostics, 3, 39–42. In Russian: Boldyrev A.M., Grebenchuk V.G. & Gushhin D.A. (2014). Vlijanie dioksida titana v sostave metallohimicheskoj prisadki na mehanicheskie svojstva metalla shva stali 10HSND. Svarka I Diagnostika, 3, 39–42.
Boldyrev, A.M. et al. (2014b). Evaluation of thermodynamic factors of the interaction of a metal-chemical additive with a weld pool. Scientific Herald of the Voronezh GASU. Construction and architecture, 2(34), 24–33. In Russian: Boldyrev A.M. i dr. (2014). Ocenka termodinamicheskih faktorov vzaimodejstvija metallohimicheskoj prisadki so svarochnoj vannoj. Nauchnyj vestnik Voronezhskogo GASU. Stroitel'stvo i arhitektura, 2(34), 24–33.
Boldyrev, A.M. et al. (2012). Study of the adhesion strength of particles in the modifying additive for welding submerged-arc structures. Nanotechnologies in construction, 4(2), 56–69. In Russian: Boldyrev A.M. i dr. (2012). Issledovanie prochnosti sceplenija chastic v modificirujushhej prisadke dlja svarki mostovyh konstrukcij pod fljusom. Nanotehnologii v stroitel'stve, 4(2), 56–69.
Chekanova Yu.,V. (2015). New components of welding materials with raw materials of the Kola Peninsula: conditioning, synthesis and interaction: the dissertation ... Candidate of Technical Sciences: 05.16.02 / Chekanova Yuliya Viktorovna; [Place of protection: Institute of Chemistry and Technology of Rare Elements and Mineral Raw Materials named after I.V. Tananaev of the Kola Scientific Center of the Russian Academy of Sciences], Apatity, 157 p. In Russian: Chekanova Ju.V. (2015). Novye komponenty svarochnyh materialov s ispol'zovaniem syr'ja Kol'skogo poluostrova: kondicionirovanie, sintez i vzaimodejstvie: dissertacija ... kandidata tehnicheskih nauk: 05.16.02 / Chekanova Julija Viktorovna; [Mesto zashhity: Institut himii i tehnologii redkih jelementov i mineral'nogo syr'ja im I.V.Tananaeva Kol'skogo nauchnogo centra RAN], Apatity.
Electronic resource (2019): https://alto-group.ru/otchot/marketing/333-rynok-svarochnyx-yelektrodov-tekushhaya-situaciya-i-prognoz-2014-2018-gg.html
Erokhin, A.A. (1973). Fundamentals of fusion welding. Physico-chemical patterns. Moscow: Engineering. In Russian: Erohin A.A. (1973). Osnovy svarki plavleniem. Fiziko-himicheskie zakonomernosti. Moskva: Mashinostroenie.
Golovko, V.V. et al. (2015). Distributional features and the role of non-metallic inclusions in weld metal when nanooxides are introduced into a weld pool. Welding and Diagnostics, 6, 25–28. In Russian: Golovko V.V. i dr. (2015). Osobennosti raspredelenija i rol' nemetallicheskih vkljuchenij v metalle shva pri vvedenii v svarochnuju vannu nanooksidov. Svarka i Diagnostika, 6, 25–28.
Iljyashchenko, D. P., & Makarov, S.V. (2016). Production of electrodes for manual arc welding with using the complex modifiers. Applied Nanotechnology: Materials and Applications – New Jersey: Apple Academic Press, 207-211.
Mazur, A.A. et al. (2014).The state and prospects of the world and regional markets of welding materials (review) Automatic welding, 11, 39-45. In Russian: Mazur A.A. i dr. (2014). Sostojanie i perspektivy mirovogo i regional'nyh rynkov svarochnyh materialov (obzor). Avtomaticheskaja svarka, 11, 39-45.
Lozovoi, V.G. et al. (2007). Russian import-replacing electrodes LB-52TRU for welding and repair of main oil and gas pipelines. Welding and diagnostics, 1, 22–23. In Russian: Lozovoj V.G. i dr. (2007). Rossijskie importozamenjajushhie jelektrody LB-52TRU dlja svarki i remonta magistral'nyh neftegazoprovodov. Svarka i diagnostika, 1, 22–23.
Votinova, E.B. (2016). Prediction of the transition of elements to the weld metal in manual arc welding for improving the composition of coatings of welding electrodes: dissertation ... Candidate of Technical Sciences: 05.02.10 / Votinova Ekaterina Borisovna; [Place of protection: Federal State Autonomous Educational Institution of Higher Professional Education "Ural Federal University named after the first President of Russia B. N. Yeltsin"], Yekaterinburg, 131 p. In Russian: Votinova E.B. (2016). Prognozirovanie perehoda jelementov v naplavlennyj metall pri ruchnoj dugovoj svarke dlja sovershenstvovanija sostava pokrytij svarochnyh jelektrodov: dissertacija ... kandidata tehnicheskih nauk: 05.02.10 / Votinova Ekaterina Borisovna; [Mesto zashhity: Federal'noe gosudarstvennoe avtonomnoe obrazovatel'noe uchrezhdenie vysshego professional'nogo obrazovanija "Ural'skij federal'nyj universitet imeni pervogo Prezidenta Rossii B. N. El'cina"], Ekaterinburg.
Kobernik, N.V. et al. (2015). Modern concepts of modifying the weld metal and weld metal with nano-scale particles (review). Welding and Diagnostics, 5, 13–18. In Russian: Kobernik N.V. i dr. (2015). Sovremennye predstavlenija o modificirovanii naplavlennogo metalla i metalla shva nanorazmernymi chasticami (obzor). Svarka i Diagnostika, 5, 13–18.
Krushenko, G.G., & Fil'kov, M.N. (2007). Modification of aluminum alloys with nanopowders. Nanotechnology, 12, 58–64. In Russian: Krushenko G.G. & Fil'kov M.N. (2007). Modificirovanie aljuminievyh splavov nanoporoshkami. Nanotehnika, 12, 58–64.
Kuznecov, V.D., & Stepanov, D.V. (2015). Structure and properties of the weld metal modified by nanooxides. Automatic welding, 11, 19–24. In Russian: Kuznecov V.D. & Stepanov D.V. (2015). Struktura i svojstva metalla svarnogo shva, modificirovannogo nanooksidami. Avtomaticheskaja svarka, 11, 19–24.
Kuznetsov, M.A., & Zernin, E.A. (2012). Nanotechnologies and nanomaterials in welding production (Review). Welding International, 26(4), 311-313. https://doi.org/10.1080/09507116.2011.606158
Lazić, V., Milosavljević, D., Aleksandrović, S., Marinković, P., Bogdanović, G., & Nedeljković, B. (2010). Carbide Type Influence on Tribological Properties of Hard Faced Steel Layer–Part I–Theoretical Considerations. Tribology in Industry, 32(2), 11-20.
Makarenko, V.D. et al. (2001). Technological properties of assembly welding of pipelines. Moscow: LLC Nedra-Business Center. In Russian: Makarenko V.D. i dr (2001). Tehnologicheskie svojstva montazhnoj svarki. Moskva: OOO "Nedra-Biznescentr".
Makarov, S.V., et al. (2017). Distribution of ultrafine powders in liquid glass using a mechano-cavitation unit. Scientific and Technical Bulletin of the Volga region, 1, 46–49. In Russian: Makarov S.V. i dr. (2017). Raspredelenie ul'tradispersnyh poroshkov v zhidkom stekle pri pomoshhi mehanokavitacionnoj ustanovki. Nauchno-tehnicheskij vestnik Povolzh'ja, 1, 46-49.
Sapozhkov, S.B., & Burakova, E.M. (2016). The Study of Complex (Ti, Zr, Cs) Nanopowder Influencing the Effective Ionization Potential of Arc Discharge When Mma Welding. IOP Conference Series: Materials Science and Engineering, 142(1). DOI:10.1088/1757-899X/142/1/01201
Saraev, Y. N., Chinakhov, D. A., Ilyashchenko, D. I., Kiselev, A. S., & Gordynets, A. S. (2017). Investigation of the stability of melting and electrode metal transfer in consumable electrode arc welding using power sources with different dynamic characteristics. Welding International, 31(10), 784-790.
Sokolov, G.N. et al. (2011). Influence of nanodispersed carbides WC and nickel on the structure and properties of weld metal. Welding and Diagnostics, 3, 36–38. In Russian: Sokolov G.N. i dr. Vlijanie nanodispersnyh karbidov WC i nikelja na strukturu i svojstva naplavlennogo metalla. Svarka i diagnostika, 3, 36–38.
Varnauskas, V., Rudzinskas, V., & Černašėjus, O. (2004). Influence of covering components of welding electrodes on chemical composition and mechanical properties of fused metal. Materials Science (Medžiagotyra), 10(1)و 7-10.
Vaz, C.T., & Bracarense, A.Q. (2015). The Effect of the Use of PTFE as a Covered-Electrode Binder on Metal Transfer. Soldagem & Inspeção, 20(2), 160-170.
Wang, C., Wang, M., Shi, J., Hui, W., & Dong, H. (2008). Effect of microstructural refinement on the toughness of low carbon martensitic steel. Scripta Materialia, 58(6), 492-495.
Boldyrev, A.M. et al. (2014b). Evaluation of thermodynamic factors of the interaction of a metal-chemical additive with a weld pool. Scientific Herald of the Voronezh GASU. Construction and architecture, 2(34), 24–33. In Russian: Boldyrev A.M. i dr. (2014). Ocenka termodinamicheskih faktorov vzaimodejstvija metallohimicheskoj prisadki so svarochnoj vannoj. Nauchnyj vestnik Voronezhskogo GASU. Stroitel'stvo i arhitektura, 2(34), 24–33.
Boldyrev, A.M. et al. (2012). Study of the adhesion strength of particles in the modifying additive for welding submerged-arc structures. Nanotechnologies in construction, 4(2), 56–69. In Russian: Boldyrev A.M. i dr. (2012). Issledovanie prochnosti sceplenija chastic v modificirujushhej prisadke dlja svarki mostovyh konstrukcij pod fljusom. Nanotehnologii v stroitel'stve, 4(2), 56–69.
Chekanova Yu.,V. (2015). New components of welding materials with raw materials of the Kola Peninsula: conditioning, synthesis and interaction: the dissertation ... Candidate of Technical Sciences: 05.16.02 / Chekanova Yuliya Viktorovna; [Place of protection: Institute of Chemistry and Technology of Rare Elements and Mineral Raw Materials named after I.V. Tananaev of the Kola Scientific Center of the Russian Academy of Sciences], Apatity, 157 p. In Russian: Chekanova Ju.V. (2015). Novye komponenty svarochnyh materialov s ispol'zovaniem syr'ja Kol'skogo poluostrova: kondicionirovanie, sintez i vzaimodejstvie: dissertacija ... kandidata tehnicheskih nauk: 05.16.02 / Chekanova Julija Viktorovna; [Mesto zashhity: Institut himii i tehnologii redkih jelementov i mineral'nogo syr'ja im I.V.Tananaeva Kol'skogo nauchnogo centra RAN], Apatity.
Electronic resource (2019): https://alto-group.ru/otchot/marketing/333-rynok-svarochnyx-yelektrodov-tekushhaya-situaciya-i-prognoz-2014-2018-gg.html
Erokhin, A.A. (1973). Fundamentals of fusion welding. Physico-chemical patterns. Moscow: Engineering. In Russian: Erohin A.A. (1973). Osnovy svarki plavleniem. Fiziko-himicheskie zakonomernosti. Moskva: Mashinostroenie.
Golovko, V.V. et al. (2015). Distributional features and the role of non-metallic inclusions in weld metal when nanooxides are introduced into a weld pool. Welding and Diagnostics, 6, 25–28. In Russian: Golovko V.V. i dr. (2015). Osobennosti raspredelenija i rol' nemetallicheskih vkljuchenij v metalle shva pri vvedenii v svarochnuju vannu nanooksidov. Svarka i Diagnostika, 6, 25–28.
Iljyashchenko, D. P., & Makarov, S.V. (2016). Production of electrodes for manual arc welding with using the complex modifiers. Applied Nanotechnology: Materials and Applications – New Jersey: Apple Academic Press, 207-211.
Mazur, A.A. et al. (2014).The state and prospects of the world and regional markets of welding materials (review) Automatic welding, 11, 39-45. In Russian: Mazur A.A. i dr. (2014). Sostojanie i perspektivy mirovogo i regional'nyh rynkov svarochnyh materialov (obzor). Avtomaticheskaja svarka, 11, 39-45.
Lozovoi, V.G. et al. (2007). Russian import-replacing electrodes LB-52TRU for welding and repair of main oil and gas pipelines. Welding and diagnostics, 1, 22–23. In Russian: Lozovoj V.G. i dr. (2007). Rossijskie importozamenjajushhie jelektrody LB-52TRU dlja svarki i remonta magistral'nyh neftegazoprovodov. Svarka i diagnostika, 1, 22–23.
Votinova, E.B. (2016). Prediction of the transition of elements to the weld metal in manual arc welding for improving the composition of coatings of welding electrodes: dissertation ... Candidate of Technical Sciences: 05.02.10 / Votinova Ekaterina Borisovna; [Place of protection: Federal State Autonomous Educational Institution of Higher Professional Education "Ural Federal University named after the first President of Russia B. N. Yeltsin"], Yekaterinburg, 131 p. In Russian: Votinova E.B. (2016). Prognozirovanie perehoda jelementov v naplavlennyj metall pri ruchnoj dugovoj svarke dlja sovershenstvovanija sostava pokrytij svarochnyh jelektrodov: dissertacija ... kandidata tehnicheskih nauk: 05.02.10 / Votinova Ekaterina Borisovna; [Mesto zashhity: Federal'noe gosudarstvennoe avtonomnoe obrazovatel'noe uchrezhdenie vysshego professional'nogo obrazovanija "Ural'skij federal'nyj universitet imeni pervogo Prezidenta Rossii B. N. El'cina"], Ekaterinburg.
Kobernik, N.V. et al. (2015). Modern concepts of modifying the weld metal and weld metal with nano-scale particles (review). Welding and Diagnostics, 5, 13–18. In Russian: Kobernik N.V. i dr. (2015). Sovremennye predstavlenija o modificirovanii naplavlennogo metalla i metalla shva nanorazmernymi chasticami (obzor). Svarka i Diagnostika, 5, 13–18.
Krushenko, G.G., & Fil'kov, M.N. (2007). Modification of aluminum alloys with nanopowders. Nanotechnology, 12, 58–64. In Russian: Krushenko G.G. & Fil'kov M.N. (2007). Modificirovanie aljuminievyh splavov nanoporoshkami. Nanotehnika, 12, 58–64.
Kuznecov, V.D., & Stepanov, D.V. (2015). Structure and properties of the weld metal modified by nanooxides. Automatic welding, 11, 19–24. In Russian: Kuznecov V.D. & Stepanov D.V. (2015). Struktura i svojstva metalla svarnogo shva, modificirovannogo nanooksidami. Avtomaticheskaja svarka, 11, 19–24.
Kuznetsov, M.A., & Zernin, E.A. (2012). Nanotechnologies and nanomaterials in welding production (Review). Welding International, 26(4), 311-313. https://doi.org/10.1080/09507116.2011.606158
Lazić, V., Milosavljević, D., Aleksandrović, S., Marinković, P., Bogdanović, G., & Nedeljković, B. (2010). Carbide Type Influence on Tribological Properties of Hard Faced Steel Layer–Part I–Theoretical Considerations. Tribology in Industry, 32(2), 11-20.
Makarenko, V.D. et al. (2001). Technological properties of assembly welding of pipelines. Moscow: LLC Nedra-Business Center. In Russian: Makarenko V.D. i dr (2001). Tehnologicheskie svojstva montazhnoj svarki. Moskva: OOO "Nedra-Biznescentr".
Makarov, S.V., et al. (2017). Distribution of ultrafine powders in liquid glass using a mechano-cavitation unit. Scientific and Technical Bulletin of the Volga region, 1, 46–49. In Russian: Makarov S.V. i dr. (2017). Raspredelenie ul'tradispersnyh poroshkov v zhidkom stekle pri pomoshhi mehanokavitacionnoj ustanovki. Nauchno-tehnicheskij vestnik Povolzh'ja, 1, 46-49.
Sapozhkov, S.B., & Burakova, E.M. (2016). The Study of Complex (Ti, Zr, Cs) Nanopowder Influencing the Effective Ionization Potential of Arc Discharge When Mma Welding. IOP Conference Series: Materials Science and Engineering, 142(1). DOI:10.1088/1757-899X/142/1/01201
Saraev, Y. N., Chinakhov, D. A., Ilyashchenko, D. I., Kiselev, A. S., & Gordynets, A. S. (2017). Investigation of the stability of melting and electrode metal transfer in consumable electrode arc welding using power sources with different dynamic characteristics. Welding International, 31(10), 784-790.
Sokolov, G.N. et al. (2011). Influence of nanodispersed carbides WC and nickel on the structure and properties of weld metal. Welding and Diagnostics, 3, 36–38. In Russian: Sokolov G.N. i dr. Vlijanie nanodispersnyh karbidov WC i nikelja na strukturu i svojstva naplavlennogo metalla. Svarka i diagnostika, 3, 36–38.
Varnauskas, V., Rudzinskas, V., & Černašėjus, O. (2004). Influence of covering components of welding electrodes on chemical composition and mechanical properties of fused metal. Materials Science (Medžiagotyra), 10(1)و 7-10.
Vaz, C.T., & Bracarense, A.Q. (2015). The Effect of the Use of PTFE as a Covered-Electrode Binder on Metal Transfer. Soldagem & Inspeção, 20(2), 160-170.
Wang, C., Wang, M., Shi, J., Hui, W., & Dong, H. (2008). Effect of microstructural refinement on the toughness of low carbon martensitic steel. Scripta Materialia, 58(6), 492-495.