[1] V.G. Pushin, E.S. Belosludtseva, V.A. Kazantsev, N.I. Kourov, Features of Martensitic Transformation and Fine Structure of Intermetallic Compound Ni50Mn50, Inorganic Materials: Applied Research. 4 (4) (2013). 340–347


[2] V.G. Pushin, N.N. Kuranova, E.B. Marchenkova, E.S. Belosludtseva, V.A. Kazantsev,
N.I. Kourov. High-Temperature shape memory effect and the B2-L10 thermoelastic martensitic transformation in Ni-Mn intermetallics, Technical Phisics. 58 (2013) 878 – 887.


[3] Pre-transition phenomena and martensitic transformations, V.G. Pushin, V.V. Kondrat’ev, Physics of Metals and Metallography. 78 (5) (1994) 40-61.


[4] V.G. Pushin, S.D. Prokoshkin, R.Z. Valiev et all, Alloys of nickel titanium with shape memory. Part 1 Structure, phase transformations and properties, ed. by V.G. Pushin, UB of RAS, Ekaterinburg, 2006 – pp. 438.


[5] E.S. Belosludtseva, N. N. Kuranova, N. I. Kourov, V. G. Pushin, V. Yu. Stukalov, A. N. Uksusnikov, Effect of Aluminum Alloying on the Structure, the Phase Composition, and the Thermoelastic Martensitic Transformations in Ternary Ni–Mn–Al Alloys, Technical Physics. 60 (2015) 1000-1004.


[6] A.V. Lukyanov, V.G. Pushin, N.N. Kuranova, A.E. Svirid, A.N. Uksusnikov, Yu.M. Ustyugov, D. V. Gunderov, Effect of the Thermomechanical Treatment on Structural and Phase Transformations in Cu–14Al–3Ni Shape Memory Alloy Subjected to HighPressure Torsion, Physics of Metals and Metallography. 119 (2018) 374-383.


[7] V.G. Pushin, N.N. Kuranova, E.B. Marchenkova, E.S. Belosludtseva et. all, Thermoelastic Martensitic Transitions and Shape Memory Effects: Classification, Crystal and Structural Mechanisms of Transformations, Properties, Production and Application of Promising Alloys, in: V.V. Rubanik, N.N. Resnina (Eds.), Shape memory alloys: properties, technologies, opportunities, Trans. Tech. Publication, Switzeland, 2015.- 33 pp. 978-3-03835-357-7


[8] E.S. Belosludtseva, N.N. Kuranova, E.B. Marchenkova, V.G. Pushin, Features of thermoelastic martensitic, structure and properties in ternary B2-alloys based on NiMn – NiTi, NiMn – NiAl, NiMn – NiGa, Ni2MnGa – Ni3Ga quasi-binary systems, Materials Today: Proceedings. 4 (2017) 4717–4721


[9] E.S. Belosludtseva, V.G. Pushin, E.B. Marchenkova, A.E. Svirid, A.V. Pushin, Investigation of Intermetallic Alloys Based on Ni-Mn with Controlled Shape Memory Effect Materials, Research Proceedings 9 (2018) 14-18.


[10] V.G. Pushin, E.S. Belosludtseva, E.B. Marchenkova, Multicomponent Metallic Ni– Mn-Based Alloys with Thermally, Mechanically and Magnetically Controlled Shape Memory Effects, Physics of Metals and Metallography. 119 No. 12 (2018) 1191-1195.


[11] A.E. Svirid, V.G. Pushin, N.N. Kuranova, A.V. Luk’yanov, A.V. Pushin, A.N. Uksusnikov, Y.M. Ustyugov, The structure–phase transformations and mechanical properties of the shape memory effect alloys based on the system Cu–Al–Ni, Materials Today: Proceedings 4 (2017) 4758 – 4762.


[12] A. V. Lukyanov, V. G. Pushin, N. N. Kuranova, A. E. Svirid, A. N. Uksusnikov, Yu. M. Ustyugov, D. V. Gunderov, Effect of the thermomechanical treatment on structural and phase transformations in Cu-14Al-3Ni shape memory alloy subjected to high – pressure torsion, Physics of Metals and Metallography. 119 (2018) 374-383.


[13] A.V. Lukyanov, A.E. Svirid, A N. Uksusnikov, The effect of high-temperature thermomechanical processing and severe plastic torsional deformation on the structuralphase transformations and properties of Cu-Al-Ni alloys with shape memory effect, in V.V. Klubovich (Eds) Monograph, Belarus, Vitebsk ”VSTU”, 2017 – 467 p.


[14] A.E. Svirid, N.N. Kuranova, A.V. Lukyanov, V.V. Makarov, N.V. Nikolayeva, V.G. Pushin, A.N. Uksusnikov, The influence of thermomechanical processing on the structurephase transformations and mechanical properties of Cu-Al-Ni alloys with shape memory, Russian Physics Journal. in the press.