Abstract
A twinned structure has been discovered for the first time in as-cast Al75Cu10Cr15 alloy. The selected-area electron diffraction patterns exhibit apparent decagonal symmetry, but the corresponding lattice images display a twinned structure. It is shown that the observed electron diffraction patterns from this structure can be simulated by the superposition of single-crystal patterns in twin orientations. The structure of the twinned phase can be described as a periodic close packing of decagonal stuctural units with a radius of about 1.0nm. This allows 72° (fivefold) twinnning with coherent twin interfaces. Since there is a diad axis of the crystalline phase parallel to the twin rotation axis, the overall symmetry is decagonal.