Abstract
Abstract The mean free path of mobile dislocations has been measured by determining the spin–lattice relaxation rate of deforming NaCl single crystals as a function of temperature and of the concentration of Ca2+ impurities. The latter may influence the magnitude of the mean free path, but this depends to a large extent on the point-defect configuration. The degree of association and the mobility of the point defects has been studied by measuring the spin–lattice relaxation rate without deforming the samples. On the other hand, the distribution of dislocations also varies with temperature, and this affects the mobility of dislocations too. The work-hardening rate of the crystals is compared with the mean free path as a function of temperature, and it is shown that both quantities have extremes under the influence of competitive mechanisms such as an enhanced thermal activation of dislocations at obstacles, an increasing mobility of point defects and an increasing number of intersections of mobile dislocations with dislocation dipoles.
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