400     Fundamentals of Magnetic Thermonuclear Reactor Design


              [8]  V.A. Belyakov, S.A. Fabritsiev, I.V. Mazul, The prospects of copper alloys for VNS applica-
                tions, Fusion Eng. Des. 45 (1999) 233–240.
              [9]  S.A. Fabritsiev, A.S. Pokrovsky, R.M. Bagautdinov,  The neutron irradiation effect on the
                mechanical properties and structure of beryllium, in: Proceedings of 18th International Sym-
                posium «Effects of Radiation on Materials», ASTM STP 1325, American Society for Testing
                and Materials, PA, USA, 1999 pp. 1062–1076.
            [10]  P. Fenici, D.J. Boerman, G.P.  Tartaglia, et  al. Effect of fast neutron irradiation on ten-
                sile properties of precipitation-hardened Cu–Cr–Zr alloy, J. Nucl. Mater.  (1994) 212–215
                pp. 399-403.
            [11]  A.S. Pokrovsky, V.A. Kazakov, V.S. Sandakov, et  al.  Влияние  нейтронного спектра на
                физико-механические характеристики медных сплавов дисперсионно-стареющего типа
                при облучении в реакторах СМ-2 и БОР-60 (The neutron spectrum influence on the physi-
                cal and mechanical characteristics of dispersion-and-age-hardened copper alloys irradiated in
                the SM-2 and BOR-60 reactors), Probl. At. Sci. Technol., Ser: Mater. Sci. New Mater. 2 (46)
                (1992) 41–50 (in Russian).
            [12]  S.A. Fabritsiev, A.S. Pokrovsky, S.E. Ostrovsky, Effect of the ‘irradiation–annealing–irradia-
                tion’ cycle on the mechanical properties of pure copper and copper alloy, J. Nucl. Mater. 324
                (2004) 23–32.
            [13]  S.A. Fabritsiev, A.S. Pokrovsky, Suppression of the radiation hardening and embrittlement of
                International Thermonuclear Experimental Reactor materials by multiple intermediate anneal-
                ing, Plasma Devices Oper. 16 (2) (2008) 67–73.
            [14]  H. Yamada, H. Kawamura, K. Tsuchiya, et al. The effect of neutron irradiation on mechanical
                properties of YAG laser weldments using previously irradiated material, J. Nucl. Mater. 340
                (1) (2005) 57–63.
            [15]  G. Kalinin, W. Gauster, R. Matera, et al. Structural materials for ITER in-vessel component
                design, J. Nucl. Mater.  (1996) 233–237 pp. 9–16.
            [16]  S.A. Fabritsiev, A.S. Pokrovsky, Effect of neutron irradiation on tensile properties of austenitic
                steel XM-19 for the ITER application, J. Nucl. Mater. 417 (2011) 874–877.