2020 №09 (05) DOI of Article
2020 №09 (07)

The Paton Welding Journal 2020 #09
TPWJ, 2020, #9, 36-39 pages

Double heat treatment of welded butt joints of railway rails

Ye.O. Panteleimonov
E.O. Paton Electric Welding Institute of the NAS of Ukraine 11 Kazymyr Malevych Str., 03150, Kyiv, Ukraine. E-mail: office@paton.kiev.ua

The paper presents the results of heat treatment of butt welded joints of R65 rails from K76F steel, produced by flashbutt welding. It is shown that after pre-annealing of butt welded joints with further accelerated heating up to the temperature of heat treatment and quenching of the rail rolling surface by compressed air, the microstructure of butt welded joint metal changes, grain size is considerably refined, hardness along the HAZ width is increased, and deviation of metal hardness along the joint line from base metal level becomes smaller. 12 Ref., 1 Table, 5 Figures. Keywords: rails, welded butt joints, heat treatment, microstructure, hardness

Received 26.05.2020


1. Genkin, I.Z. (2003) Heat treatment of rail welded joints in induction units. The Paton Welding J., 9, 38-41.
2. Nesterov, D.K., Sapozhkov, B.E., Levchenko, N.F. et al. (1990) Heat treatment of rail steel using induction heating. Metallovedenie i Termich. Obrab. Metallov, 8, 30-34 [in Russian]. https://doi.org/10.1007/BF00700711
3. Feshchukov, A.N. (2016) Unit for heat treatment of rail welded joints in the field. RF, Pat. 57752, Int. C. E01B31/18 [in Russian].
4. Rezanov, V.A., Fedin, V.M., Bashlykov, A.V. (2013) Differential quenching of rail welded joints. Vestnik NII Zheleznodorozhnogo Transporta, 2, 28-33 [in Russian].
5. Skoblo, T.S., Sapozhkov, V.E., Aleksandrova, N.M., Sidashenko, A.I. (2014) Quality of thermally-hardened rails and bases. Examinations. Theory. Equipment. Technology. Operation. Ed. by T.S. Skoblo. Kharkov, LLC «Shchedra Sadyba Plus» [in Russian].
6. Stalinsky, D.V., Rudyuk A.S., Sapozhkov, V.E., Nesterov D.K. (2007) Spheroidizing of carbide phase in hypereutectoid steel and its influence on rail properties. Metallurg. i Gornorud. Promyshlennost, 2, 48-54 [in Russian].
7. Ostrovsky, G.A., Sarrak, S.I., Shepelyakovsky K.Z. (1967) Influence of austenitic grain change on properties of carbon steels after low-temperature tempering. Metallovedenie i Termich. Obrab. Metallov, 6, 56-62 [in Russian].
8. Panteleimonov, E.O. (2017) Complex for heat treatment of rail welded joints in the field. Ukraine, Pat. on utility model 114593, Int. Cl. E01B31/18 [in Ukrainian].
9. Pantelejmonov, E.O. (2020) Module for heat treatment of rail welded joints. Ukraine, Pat. on utility model 143908, Int. Cl. E01B 31/18 (2006.01), C21D 1/10 (2006.01) [in Ukrainian].
10. Pantelejmonov, E.O. (2016) Induction device for rail welded joints. Ukraine, Pat. on utility model 109123, Int. Cl. C21D 1/10 (2006.01) [in Ukrainian]. https://doi.org/10.15407/tpwj2016.10.08
11. Pantelejmonov, E.A., Gubatyuk, R.S. (2016) Induction device for heat treatment of welded joints of railway rails. The Paton Welding J., 10, 41-43. https://doi.org/10.15407/tpwj2016.10.08
12. Panteleymonov, E.A. (2018) On the problem of heat treatment of welded joints of railway rails, Ibid., 3, 36-39 https://doi.org/10.15407/tpwj2018.03.08

Advertising in this issue: