Improvement of Research Procedures into the Highly Rigid Welded Metal Using Thermal Microscopy Facilities

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A research procedure and configuration of a welded sample are proposed to explore properties of welded metal using thermal microscopy facilities.

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Edited by:

Dr. Dmitry A. Chinakhov

Pages:

148-152

Citation:

N.N. Malushin et al., "Improvement of Research Procedures into the Highly Rigid Welded Metal Using Thermal Microscopy Facilities", Materials Science Forum, Vol. 927, pp. 148-152, 2018

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July 2018

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[1] Gerasimova L.P. Quality control of welded and soldered joints: reference book М.: Intermet Engineering, (2007) 376 p.

[2] Zubkov N.S., Мalushin N.N. The influence of alloying on the arising of temporary stresses in chromium and tungsten welded metal, J. Automatic welding. 4 (1978) 73- 74.

[3] Lebedev V.A., Saraev Y.N. Effect of pulses on welding and surfacing processes in mechanized and automatic equipment, J. Welding International. 30(5) (2016) 395-402.

DOI: https://doi.org/10.1080/09507116.2015.1090170

[4] N.А. Saprykina, A.A. Saprykin, M.S. Matrunchik, Formation of Surface Layer of Cobalt Chrome Molybdenum Powder Products with Differentiation of Laser Sintering Modes, Applied Mechanics and Materials. 682 (2014) 294-297.

DOI: https://doi.org/10.4028/www.scientific.net/amm.682.294

[5] Fedoseev S.N., Valuev D.V., Mamadaliev R.A., Sokolov P.N. Application of integrated methods to improve the technological properties of steel, J. Key Engineering Materials. 736 (2017) 110-115.

DOI: https://doi.org/10.4028/www.scientific.net/kem.736.110

[6] Saraev Y.N., Bezborodov V.P., Gladkovskiy S.V., Golikov N.I. Improving the reliability of metallic structures in service in the conditions with low climatic temperatures by efficient application of advanced methods of modification of the zone of the welded joint, J. Welding International. 31(8) (2017).

DOI: https://doi.org/10.1080/09507116.2017.1307512

[7] Silkin A.A., Linnik A.A., Pankratov A.S.,. Kurganova Yu. A, Kobernik N.V., Mikheev R.S. Formation of the Structure of the Weld Metal upon the Introduction of Nanoparticles into the Weld, J. Russian Metallurgy (Metally). 13 (2016) 1253 – 1256.

DOI: https://doi.org/10.1134/s0036029516130206

[8] Kadukov V G Kogan A E Fomin N A Stirring intensity effect upon the duration of blowing J Izv. Vuzov 6 (1986) 46 – 57.

[9] Fedorov N S Zubkov N S Krepysheva L B Thermal treatment effects upon hardness and phase composition of the hard-faced high-speed steels J Newsletter of Higher Educational institutions. Ferrous metallurgy 8 (1983) 59–63.

[10] Frumin I I Automated electric arc welding Metallurgizdat (1961) 421.

[11] Gueller Yu.A. Tool steels. Metallurgy, (1975) 584.

[12] Kozyrev N A Main practices of manufacturing of low-temperature resistant rails J Proceedings of Universities Ferrous metallurgy 4 (2011) 31-34.

[13] Borovushkin I.V., Petrov G.L. Effect of hydrogen on formation of weld cracking when welding hardening steels, J. Welding. 11 (1966) 13-15.

[14] Poluhin V.P., Nikolaev V.A., Reliability and durability of rollers cold rolling. Moscow: Metallurgy, (1971) 503.

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