1. Taysom, B.S., Sorensen, C.D., and Nelson, T.W., Strength in rotary friction welding of five dissimilar nickel-based superalloys, Weld. Res., 2021, vol. 100, pp. 302-s–308-s. https://doi.org/10.29391/2021.100.027

2. Eliseev, Yu.S., Maslenkov, S.B., Geikin, V.A., and Poklad, V.A., Tekhnologiya sozdaniya neraz”emnykh soedinenii pri proizvodstve gazoturbinnykh dvigatelei (Technology for Creating Permanent Joints at Production of Gas-Turbine Engines), Moscow: Nauka i Tekhnologii, 2001.

3. Sorokin, L.I., Weldability of nickel superalloys (review). Part 2, Svarochnoe Proizvod., 2004, no. 9, pp. 3–7.

4. Sorokin, L.I., Generation of hot cracks at welding of nickel superalloys, Svarochnoe Proizvod., 2005, no. 7, pp. 29–33.

5. Kablov, E.N., Lomberg, B.S., and Ospennikova, O.G., Creation of modern heat-resistant materials and technologies of their fabrication for aviation engine manufacture, Kryl’ya Rodiny, 2012, nos. 3–4, pp. 34–38.