Mg effect on the cryogenic temperature toughness of Al-Mg alloys

In this study, the Mg and temperature effects on cryogenic impact toughness of Al-Mg alloys are investigated. Cryogenic Charpy impact tests are conducted for several Al-Mg alloys: AA5083 (=reference), Al-6 Mg, Al-8 Mg, and Al-8.5 Mg. The temperature range is - 196 degrees C to 100 degrees C. In all Al-Mg alloys, the impact toughness is improved at higher temperatures. The Al-6 Mg alloy exhibits the largest impact toughness, whereas the lowest impact toughness is observed in AA5083 over the temperature range. Beyond the Mg content of 6 wt%, the impact toughness of Al-Mg alloys decreases with increasing Mg. The planar anisotropy (Delta r) is low in Al-Mg alloys of higher impact toughness. The largest amounts of coarse inclusions (>10 lm) are present in the AA5083, providing favorable cracking sites and thereby its poor impact toughness. The grain size and intergranular Mg segregation do not appear to influence the toughness of Al-Mg alloys. Weaker texture in the most ductile Al-6 Mg appears beneficial to gain more homogeneous deformation and lower Dr. Brass {110} < 112 >, S {123} < 634 >, and Copper {112} < 111 > textures evolve at the expense of a Goss {110} < 001 > weakening by increasing the Mg level. This texture evolution illustrates the toughness degradation of Al-Mg alloys of higher Mg levels. (c) 2022 The Authors. Published by Elsevier Ltd. This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/).

Automated summary

This study investigates the effects of Mg and temperature on the cryogenic impact toughness of Al-Mg alloys. The results show that higher temperatures improve the impact toughness in all Al-Mg alloys. However, beyond a Mg content of 6 wt%, the impact toughness decreases with increasing Mg. AA5083 exhibits the lowest impact toughness due to the presence of coarse inclusions.