Abstract
Abstract Strain-induced anomalous grain growth has been investigated in pure nickel. It was found that slow heating to a holding temperature of 1000[ddot]C greatly increased the proportion of anomalous growth compared with isothermal annealing at 1000[ddot]C. There were also differences in the misorientation distributions of the two specimens, although the main feature of both was that the majority of boundaries were high-mobility types. Mechanisms for strain-induced grain growth are discussed, both in terms of the present data and in a wider context. It is suggested that the often observed ‘grain growth incubation period’ is in fact a grain-boundary recovery stage when boundaries are able to rearrange towards connected groups having a lower energy and/or higher mobility. This in turn increases the selectivity of sites for the initiation of grain growth and hence the degree of anomalous grain growth.
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