Technology and Organization of Shipbuilding and Ship Repair
Original article
http://doi.org/10.24866/2227-6858/2022-2/39-46
Statsenko V., Bernavskaya M., Sadykov R.
VLADIMIR N. STATSENKO, Doctor of Technical Sciences, Professor, vladsta@mail.ru*
Polytechnical Institute
Far Eastern Federal University
Vladivostok, Russia
MAYA V. BERNAVSKAYA, Associate Professor, bernavskaya@mail.ru
St. Petersburg Polytechnic University of Peter the Great
Saint-Petersburg, Russia
RUSLAN K. SADYKOV, Head of the Laboratory of Destructive Control, sadykov_rh@bk.ru
OOO "Pacific GAC"
Vladivostok, Russia
Temperature fields asymmetry in friction stir welding
Abstract. In friction stir welding, temperature fields in the joint zone and their distribution significantly affect the processes of mass transfer and phase transformations. This paper reveals the asymmetry in the temperature distribution and the region of their maximum values in a plate made of aluminum alloy AMg3 during its processing with tools of different diameters. For these calculations, a program was developed in the Mathlab package, which uses experimental data on heat release during linear friction stir welding at different speeds of rotation and movement of a tool of various diameters. The calculation results are shown as isotherm fields on the surface of a AMg3 aluminum alloy plate 4 mm thick for tools with diameters of 10, 14 and 20 mm and the following modes: its rotation speed is 40-100 rad/s, welding speed is 0.42-67 mm/ from. The asymmetry parameters of isotherms are characterized by the removal of the zone of maximum temperatures from the axis of rotation of the tool and its displacement from the welding line. These parameters are expressed as a percentage of the tool radius. The main result of the performed calculations is that with an increase in the rotation speed of the tool, the maximum temperatures move away from its axis, i.e. are located almost on the outer diameter of the tool, while the offset of maximum temperatures from the welding line is significantly reduced. With an increase in the welding speed, the distance from the axis of rotation and the displacement from the welding line practically do not change. As the tool diameter decreases, the maximum temperatures approach the axis of rotation and move away from the welding line.
Keуwords: friction stir welding, temperature fields, asymmetry of isotherms, removal and shift of maximum temperatures
See the reference in English at the end of the article
For citation: Statsenko V., Bernavskaya M., Sadykov R. Temperature fields asymmetry in friction stir welding. FEFU: School of Engineering Bulletin. 2022;(2):39-46. (In Russ.).