Abstract
The Vincent-Midgley precession technique has been used to collect three-dimensional electron diffraction intensity data from a dispersion of coherent precipitates in a matrix. In order to suppress severe effects from multiple diffraction via matrix reflections, a fairly large precession (tilt) angle had to be used. This implied a high background from the surrounding matrix, and limited the number of reflections that could be measured from patterns on image plates. The heavily faulted hexagonal η′-precipitates ( a = 0.496 nm , c = 1.405 nm ) with thickness 3–5 nm occur in four equivalent orientations relative to the aluminium matrix; with frequent overlap of reflections. A model of the average structure in the space group P6 3 /mmc with assumed composition Mg 2Zn 5− x Al 2+ x , have been derived by Patterson analysis and intensity comparisons.
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