Homogenization of 7075 and 7049 aluminium alloys intended for extrusion welding

Abstract

During the extrusion of aluminum alloys profiles using porthole dies, the temperature of the material in the welding chamber is one of crucial parameters determining the quality of longi-tudinal welds. In order to extend the permissible temperature range, the billets intended for this process should be characterized by the maximum attainable solidus temperature. Within the present work, the homogenization of AlZnMgCu alloys DC‐cast (Direct Chill‐cast) billets was investi-gated, with the aim of solidus temperature maximization. Conditions of soaking and cooling stages were analyzed. The materials were homogenized in laboratory conditions, and the microstructural effects were evaluated on the basis of DSC (Differential Scanning Calorimetry) tests and SEM/EDS (Scanning Electron Microscopy/Energy‐Dispersive Spectroscopy) investigations. For all examined alloys, the unequilibrium low‐melting microstructure components were dissolved during soaking, which led to the significant solidus temperature increase, in comparison to the as‐cast state. The values within the range of 525–548 °C were obtained. In the case of alloy with highest Cu concen-tration, the application of two‐step soaking was necessary. In order to take advantage of the high solidus temperature obtained after soaking, the cooling rate from homogenization must be con-trolled, and the effective cooling manner is strongly dependent on alloy composition. For high‐Cu alloy, the solidus decreased, despite the fast cooling and the careful billets preheating being neces-sary.