Investigation on mechanical properties and corrosion resistance of Ti-modified AA5083 aluminum alloy for aerospace and automotive applications

Casting of aluminum with different concentration of alloying elements such as Mg, Mn (similar to that in AA5083) with additional percentages of 0.1, 0.2 and 0.3% Ti, are carried out using graphite crucible. The as-cast microstructure is modified by hot rolling to a thickness of similar to 2 mm. Mechanical and metallurgical and characterization of heat-treated thin sheets are carried out using tensile testing, hardness measurement, metallography, image analysis and optical microscope. By increasing the Ti content, the results show grain refinement and increase in the formation of Al3Ti which reflected positively on the mechanical properties. Specifically, Ultimate tensile strength is increased from 260 MPa (0 wt% Ti) to 345 MPa (0.3 wt% Ti) when using water quenching, 32.6% improvement for air cooling, and 23.3% for furnace cooling. Electrochemical corrosion behavior of heat-treated water quenched, air cooled and furnace cooled samples were tested in 3.5% NaCl solution. The results show that the heat-treated alloys have very good resistance against corrosion, while by increasing the Ti content, the corrosion rate increases due to the grain refinement phenomena.

Automated summary

Casting of aluminum with different concentrations of Mg, Mn alloying elements, similar to AA5083, along with 0.1%, 0.2%, and 0.3% Ti, was carried out using a graphite crucible. The resulting as-cast microstructure was modified by hot rolling into thin sheets, which were then subjected to mechanical and metallurgical characterization through various testing methods. The results showed that increasing Ti content led to grain refinement, increased formation of Al3Ti, and improved mechanical properties. However, corrosion resistance was reduced due to the grain refinement phenomena.