The dependence of the β-AlFeSi to α-Al(FeMn)Si transformation kinetics in Al–Mg–Si alloys on the alloying elements

The crystal structure of b 0 , one of the metastable phases formed during precipitation hardening of Al-Mg-Si (6xxx) alloys, has been determined using electron diffraction (ED). With the aid of high-resolution electron microscopyimages and the composition estimated from energy dispersive X-ray analy

The effect of iron on the precipitation of a technical Al-Mg-Si alloy was studied by macroand microhardness, Y-modulus and SANS with D K D and was coinpared with a pure alloy. The iron phases of the technical alloy were preferentially considered by the SANS. I n addition the daniping by the elastoma

Addition of iron into the molten metal for the removal of the ␤-AlFeSi intermetallic by refining of ␣-AlFeSi phase has been studied. Solidification conditions and composition determine the final microstructure and mechanical properties of a casting piece. It is known that increasing the iron content

Thermodynamic calculation was employed to predict the influence of Si content on the ageing behavior of Al-Mg-Si-Cu alloys. In addition, experiments were carried out to verify the predictions. The results show that thermodynamic calculation can predict the effect of Si content on the ageing behavior