Abstract
Alloys with the shape memory effect based on titanium nickelide are well known and used quite widely in medicine, aircraft and spacecraft engineering, and other fields of mschine building. These alloys are used in creating thermomechanical parts of structures, temperature-sensitive gauges, and thermoregulators. Titanium alloys with the shape memory effect that posses high damping properties are used when vibrations and noise have to be limited in order to provide effective operation of machine parts and engineering systems as a whole. Commercial titanium-base alloys have lower characteristics of shape regeneration than alloys based on titanium nickelide. However, commercial alloys are much less expensive and are used to produce a wide range of semifinished products. In these materials the characteristics of shape regeneration and damping are often determined by the mechanism of change of shape in deformation, which has not yet been studied appropriately. The present work is devoted to the mechanisms of inelasticity in titanium alloys in various stages of the action of the shape memory effect.
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Translated from Metallovedenie i Termicheskaya Obrabotka Metallov, No. 4, pp. 12–16, April, 1998.
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Il'in, A.A., Kollerov, M.Y., Golovin, I.S. et al. Mechanisms of change of shape in deforming and heating titanium alloys with the shape memory effect. Met Sci Heat Treat 40, 143–147 (1998). https://doi.org/10.1007/BF02471769
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DOI: https://doi.org/10.1007/BF02471769