Improvement of the tensile properties of an Al-Si-Cu-Mg aluminum industrial alloy by using multi stage solution heat treatments

Novel multi-stage solution heat treatments were applied to an Al-Si-Cu-Mg industrial aluminum alloy to improve its tensile properties. Two and three-stage solution treatments were tested, varying the secondary dendritic arm spacing (SDAS) and the Sr content of the alloy. The temperature of the solution heat treatments refer to the onset temperature of incipient melting (T-im). In the two stage cycles proposed, the hold temperature of the first stage was always set above T-im, while the isothermal treatment of the second stage was performed at a temperature below T-im. This is an inverse sequence compared with the sequence used by other authors in which the solution heat treatments start below T-im and then increase above T-im. It was found that with the proposed solution treatments, it was possible to obtain similar or better alloy tensile properties with shorter treatments times than the properties obtained today in industry by conventional solution treatment. For example, in the case of an alloy of 26 mu m of average SDAS with 100 ppm Sr, it was found that a two-stage solution treatment cycle (4 h at 520 degrees C followed by 1 h at 490 degrees C) produced better tensile properties than the conventional single stage solution cycle (5 h at 485 degrees C) applied in industry, increasing the UTS, YS and elongation percentage values by 15, 10 and 82%, respectively. Even a solution treatment cycle consisting of I h at 530 degrees C followed by 1 h at 490 degrees C produced better tensile properties of the alloy than those obtained by the conventional industrial solution treatment in approximately half the time. In general, larger values of SDAS and higher Sr additions (200 ppm) in the alloy both resulted in a decrease in the tensile properties, primarily affecting the elongation to fracture. (C) 2012 Elsevier B.V. All rights reserved.