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Design strength of VT22 titanium alloy in different structural conditions

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    B. A. Drozdovskii, L. V. Prokhodtseva, and N. I. Novosil'tseva, The Crack Resistance of Titanium Alloys [in Russian], Metallurgiya, Moscow (1983).

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    V. N. Barsukov and V. V. Shevel'kov, “Features of decomposition ofβ-solid solution in VT22 high-strength titanium alloy,” Optimization of the Structure and Properties of Steels and Alloys in Light of Realization of the “Intensification-90” Program [in Russian], Leningrad. Dom Nauch. Tekh. Prop., Leningrad (1987), pp. 74–77.

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    V. V. Ostashev and V. V. Shevel'kov, “Features of the structure of VT22 alloy after thermocycling treatment,” Problems of Resource-Saving Technologies and Production Operations [in Russian], PFLPI, Pskov (1985).

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    A. M. Parshin, V. N. Barsukov, and V. V. Shevel'kov, “The influence of thermocycling treatment on increasing the plasticity and toughness of coarse-grained semifinished products of VT22 titanium alloy,” Increasing the Quality, Reliability, and Life of Parts of Constructional, Heat-Resistant, Powder, and Tool Steels and Alloys [in Russian], Leningrad. Dom Nauch. Tekh. Prop., Leningrad (1986), pp. 33–37.

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Translated from Fiziko-Khimicheskaya Mekhanika Materialov, Vol. 26, No. 6, pp. 84–89, November–December, 1990.

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Shevel'kov, V.V., Kratovich, L.F. Design strength of VT22 titanium alloy in different structural conditions. Mater Sci 26, 687–691 (1991).

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  • Titanium
  • Titanium Alloy
  • Structural Condition
  • Design Strength
  • VT22 Titanium