Plasticity of Al-Li alloys in the temperature range 0.5-300 K: Low-temperature anomalies, deformation instability and the effect of superconducting transition
N. V. IsaevB. I. Verkin Physicotechnical Institute of Low Temperatures, Ukrainian Academy of Sciences 310164 KharkovV. V. PustovalovB. I. Verkin Physicotechnical Institute of Low Temperatures, Ukrainian Academy of Sciences 310164 KharkovV. S. FomenkoB. I. Verkin Physicotechnical Institute of Low Temperatures, Ukrainian Academy of Sciences 310164 KharkovС. Э. ШумилинB. I. Verkin Physicotechnical Institute of Low Temperatures, Ukrainian Academy of Sciences 310164 Kharkov
ABI
Abstract
Plastic deformation of binary alloys Al+3.8, 7.0, or 10.4 at. % Li is studied under conditions of extension at a constant rate at temperatures down to 0.5 K. The temperature dependences of the plasticity parameters are studied, low-temperature singularities of these dependences are established, and their origin is discussed. In the temperature interval 4.2–0.5 K, the effect of the degree of deformation, temperature, and superconducting transition on the jumpwise deformation of alloys is studied. A qualitative comparison is made between the experimental data and the prevailing theories of thermomechanical deformation instability.
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