Obrabotka Metallov 2018 Vol. 20 No. 2

OBRABOTKAMETALLOV Vol. 20 No. 2 2018 114 MATERIAL SCIENCE For citation: Gladkovsky S.V., Lepikhin S.V., Kamantsev I.S., Lunev A.G., Perovskaya M.V. Investigation of the influence of energy parameter of the covered-electrode welding on the impact strength characteristics and cracking resistance of the welded joints obtained. Obrabotka metallov (tekhnologiya, oborudovanie, instrumenty) = Metal Working and Material Science , 2018, vol. 20, no. 2, pp. 100–115. doi: 10.17212/1994- 6309-2018-20.2-100-115. (In Russian). ______ * Corresponding author Saraev Yury N., D.Sc. (Engin eering), Chief Researcher Institute of Strength Physics and Materials Science of the Siberian Branch of the RAS, 2/4 pr. Akademicheskii, Tomsk, 634055, Russian Federation Теl.: +7 (3222) 492-942 , e-mail: litsin@ispms.ru References 1. Pokhodnya I.K., ed. Fiziko-tekhnicheskie problemy sovremennogo materialovedeniya . V 2 t. T. 1 [Physical and technical problems of modern materials science. In 2 vol. Vol. 1]. National Academy of Sciences of Ukraine. Kiev, Akademperiodika Publ., 2013. 583 p. ISBN 978-966-360-236-3. 2. Liu C., Bhole S.D. Challenges and developments in pipeline weldability and mechanical properties. Science and Technology of Welding and Joining , 2013, vol. 18, iss. 2, pp. 169–181. doi: 10.1179/1362171812Y.0000000090. 3. Shiga C. Problems in welded joints and systematic approach to their s solution in STX21 project. Science and Technology of Welding and Joining , 2000, vol. 5, iss. 6, pp. 356–364. 4. Zenitani S., Hayakawa N., Yamamoto J., Hiraoka K., Morikage Y., Kubo T., Yasuda K., Amano T. Development of new Low Transformation-Temperature welding consumable to prevent cold cracking in high strength steel welds. Proceedings of 2002 Symposium for Welded Structures of the Japan Welding Society , Osaka, 2002, pp. 346–353. 5. Ogino Y., Hirata Y. Numerical simulation of metal transfer in argon gas-shielded GMAW. Welding in the World , 2015, vol. 59, iss. 4, pp. 465–473. doi: 10.1007/s40194-015-0221-8. 6. Kannengiesser Th., Lausch Th., Kromm A. Effects of heat control on the stress build-up during high-strength steel welding under defined restraint conditions. Welding in the World , 2011, vol. 55, iss. 7, pp. 58–65. 7. Saraev Yu.N., Gladkovsky S.V., Golikov N.I. et al. Poiskovye issledovaniya povysheniya nadezhnosti metal- lokonstruktsii otvetstvennogo naznacheniya, rabotayushchikh v usloviyakh ekstremal’nykh nagruzok i nizkikh kli- maticheskikh temperatur [Research of improving the reliability of metal of responsible purpose, working in conditions of extreme loads and low climatic temperatures]. Naukoemkie tekhnologii v proektakh RNF. Sibir’ [Knowledge-based technology in the draft RSF. Siberia]. Ed. by S.G. Psakh’e and Yu.P. Sharkeev. Tomsk, NTL Publ., 2017, pp. 134– 202. ISBN 978-5-89503-607-5. 8. Loos A.V., Lukutin A.V., Saraev Yu.N. Istochniki pitaniya dlya impul’snykh elektrotekhnologicheskikh protsessov [Power supplies for pulse electro-technological processes]. Tomsk, TPU Publ., 1998. 159 p. 9. Saraev Yu.N., Bezborodov V.P., Selivanov Yu.V. Special features of the formation of protective corrosion- resisting coatings in pulsed electric arc surfacing of austenitic steels. Welding International , 2010, vol. 24, iss. 11, pp. 884–888. doi: 10.1080/09507116.2010.486199. 10. Saraev Yu.N., Lunev A.G., Kiselev A.S., Gardiner A.S., Nesteruk D.A., Khaydarova A.A., Chinakhov D.A., Semenchuk V.M. Issledovanie vliyaniya energeticheskikh parametrov rezhima dugovoi svarki pokrytymi elektrodami na stabil’nost’ teplomassoperenosa [Investigation of the influence energy parameters of the arc welding mode with coated electrodes for the stability of heat and mass transfer]. Svarochnoe proizvodstvo = Welding Production , 2018, no. 2, pp. 3–13. 11. Saraev Yu.N., Chinakhov D.A., Ilyshenko D.I., Kiselev A.S., Gordynets A.S. Investigation of stability of melting and electrode metal transfer in consumable electrode arc welding using power sources with different dynamic characteristics. Welding International , 2017, vol. 31, iss. 10, pp. 784–790. doi: 10.1080/09507116.2017.1343977. 12. Traidia A., Roger F., Guyot E., Schroeder J., Lubineau G. Hibrid 2D–3D modelling of GTA welding with filler wire addition. International Journal of Heat and Mass Transfer , 2012, vol. 55, pp. 3946–3963. doi: 10.1016/j. ijheatmasstransfer. 2012.03.025. 13. Wang H., Colegrove P.A., Mehnen J. Hybrid modelling of the contact gap conductance heat transfer in welding process. Advances in Engineering Software , 2014, vol. 68, pp. 19–24. doi: 10.1016/j.advengsoft.2013.11.000. 14. Tong L.G., Gu J.C., Yin S.W., Wang L., Bai S.W. Impacts of torch moving on phase change and fluid flow in weld pool of SMAW. International Journal of Heat and Mass Transfer , 2016, vol. 100, pp. 949–957. 15. Pokhodnya I.K., Suptel’ A.M. Teplosoderzhanie kapel’ pri svarke v uglekislom gaze [Enthalpy drops during welding in carbon dioxide]. Avtomaticheskaya svarka = Automatic Welding , 1970, no. 7, pp. 12–17.