| Abstract: | An analysis is made of the thermodynamic stability of the dislocation structure in polycrystalline samples of Fe-C, deformed
under conditions of high rates and hydrostatic pressures, based on experimental and theoretical data concerning the internal
energy and on diffractometer measurements of the broadening of x-ray lines. The method of deformation calorimetry was used
to determine the internal energy in a wide range of deformations. A theoretical model is proposed for estimating the change
in internal energy in deformed alloys. An investigation is made of the dependence of the interdislocation interaction parameter
on the deformation rate for different stressed state-schemes and large plastic deformations. It is shown that the relative
quantity δU/A is correlated in a wide range of deformations with the relative root-mean-square distortions of the crystal lattice of the
deformed solid solution. The mechanisms for the accumulation of energy in deformed solid solutions having a body-centered
cubic lattice are considered.
Don State Technical University. Translated from Izvestiya Vysshikh Uchebnykh Zavedenii, Fizika, No. 6, pp. 77–83. |
