Dual phase (alpha - beta) Zr-Excel (Zr-3.5 wt% Sn-0.8 wt% Mo-0.8 wt% Nb) Pressure Tube (PT) material was solution treated at a range of temperatures in the (alpha + beta)(zr),or (beta(zr),-phase field, and cooled in water or air to generate various microstructures. TEM and neutron diffraction revealed significant alterations during the heat-treatments in both the microstructure and the initial strong transverse texture of the As-Received (ASR) PT material. The proportion of transformed beta-phase (beta -> alpha) or martensitic/acicular alpha-phase increased progressively with increasing solution temperature. The morphologies of the transformed beta products are different in the water-quenched material (martensitic plates) than in the air-cooled material (relatively wide, parallel plates). The room temperature texture of the heat-treated material shows that: the extent to which the initially strong transverse texture is modified (basal poles shifting towards the axial direction) increases with increasing solution temperature, yielding a relatively random texture at higher solution treatment temperature (quenching from similar to 930 degrees C). This texture modification through heat-treatment is more effective by water-quenching than by air-cooling. Although, a randomized texture is developed in the alpha -> beta -> alpha a phase transformation, variant selection is observed. It is suggested that this selection occurs primarily during cooling (alpha -> beta), whereas no (or very weak) variant selection occurs during heating (alpha -> beta), as indicated by the identical room temperature beta-phase (remnant) textures in the heat-treated and ASR materials.

• 出版日期2016-12-5