EVALUATION OF CORROSION BEHAVIOR OF AL-MG-LI ALLOYS IN SEAWATER

Weldalite 050, a high-strength Al-Mg-Li alloy, was evaluated for its c orrosion resistance in deaerated and air saturated Arabian Gulf water to determine its suitability for marine applications. Weight loss and electrochemical studies showed that the alloy had minimum corrosion ra tes of 1.82 and 4.82 mpy (mils per year), respectively, in deaerated a nd air saturated Arabian Gulf water with very high total dissolved sol ids (TDS) content. Weldalite 050 exhibited good resistance to corrosio n at velocities up to 3.9 mis. The formation of Al2MgLi, Al-Li, Al12Mg 17, and Al-Li precipitates has a pronounced effect on its corrosion re sistance. The corrosion resistance of Weldalite 050 compares favorably with that of alloys 5052 and 5054, wrought alloys 6061 and 6013, and silicon carbide (SiC) reinforced alloys 6061 and 6013.