Abstract
This paper describes an investigation of the relationship between mechanical properties and dislocation substructure in the strain rate range 10−4 to 104 sec−1. The relationship between lower yield stress τyield and strain rate e follows two consecutive semi-logarithmic relationships of the form τyield = α + β log e with a break at a strain rate of approximately 10 sec−1. The dislocation configurations produced by deformation in these two regions have been investigated at strain rates of 1.2 × 10−4 sec−1 and 1.5 × 103 sec−1 using transmission electron microscopy techniques. The relationship between dislocation density, flow stress, and plastic strain has been determined and is discussed in terms of the dislocation structures observed.
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