Thermal evolution and grain boundary phase transformations in severely deformed nanograined Al-Zn alloys

The structure, phase composition and thermal evolution of binary Al-Zn alloys were studied before and after high-pressure torsion (HPT) in Bridgman anvils. Oil heating of HPT-deformed samples from room temperature to 300 degrees C Zn grains dissolved, and a relatively fine-grained (Al) equilibrium solid solution formed. Differential scanning calorimetry Curves reveal two-stage melting in the Al-Zn alloys studied, i.e., the melting of the (Al) solid solution starts 10-25 degrees C below tile bulk solidus line. The effect is more pronounced in fine-grained samples. It is explained by the presence of layers of liquid-like phase in the (Al) grain boundaries (GB) between bulk and GB solidus lines. The new metastable GB solidus line appears in the (Al) single-phase region of the Al-Zn phase diagram, it can be compared with the metastable solvus lines for the formation of GP zones and alpha phases in the (Al)+Zn two-phase area. (C) 2008 Acta Materialia Inc. Published by Elsevier Ltd. All rights reserved.