Find in Library

The quenching rate of Al&#8722;Mg&#8722;Si alloys during solution treatment is an important parameter for the automotive industry. In this work, the effect of the different quenching rates on the microstructures, mechanical properties, and paint bake-hardening response of Al&#8722;Mg&#8722;Si sheets was studied. Large dimples form on the fracture surface of a sample at a quenching rate of 0.01 &#176;C/s. When the quenching rate increased to 58.9 &#176;C/s, the dimples became smaller. The recrystallized grains and textures were slightly affected by quenching rates beyond 1.9 &#176;C/s. Thus, higher <i>r</i> values of the samples were achieved with slower quenching rates. Furthermore, only the Al(FeMn)SiCr insoluble phases were observed in samples with a rapid quenching rate. Sufficient solute atoms and vacancies resulted in the improvement of the precipitation kinetics and paint bake-hardening capacity for Al&#8722;Mg&#8722;Si sheets at rapid rates. With a decrease in the quenching rate, the formation of the rod-like coarse &#946;&#8242; phases consumed many solute atoms and vacancies, leading to the deterioration of the paint bake-hardening capacity. This study provides a critical reference on quenching rates for industrial practices, so that good mechanical properties can be achieved using precision control of the quenching process.