1. Stolin, A.M. and Bazhin, P.M., Manufacture of multipurpose composite and ceramic materials in the combustion regime and high-temperature deformation (SHS extrusion), Theor. Found. Chem. Eng., 2014, vol. 48, no. 6, pp. 751–764.

2. Stolin, A.M. and Bazhin, P.M., Current directions in practical application of high-temperature shear deformation of powder materials in SHS technology, Tekhnologicheskoe gorenie (Technological Combustion), Aldoshin, S.M. and Alymov, M.I., Eds., 2018, pp. 372–394.

3. Stolin, A.M., Bazhin, P.M., and Alymov, M.I., Preparation of nanostructured composite ceramic materials and products under conditions of a combination of combustion and high-temperature deformation (SHS extrusion), Nanotechnol. Russ., 2014, vol. 9, nos. 9–10, pp. 1–13.

4. Sheng, L.Y. et al., Microstructure evolution and mechanical properties of Ni3Al/Al2O3 composite during self-propagation high-temperature synthesis and hot extrusion, Mater. Sci. Eng., A, 2012, vol. 555, pp. 131–138.

5. Ovcharenko, V.E., Lapshin, O.V., Chudinov, V.A., and Kolobova, E.G., Grain structure evolution in an intermetallic compound accompanying extrusion during high-temperature synthesis, Fiz. Mezomekh., 2005, special issue 6, pp. 65–68.