Corrosion of Galvanically Coupled Magnesium

Abstract: New environmental regulations, good mechanical properties, abundant availability and reduced cost have generated renewed interest in the wider use of magnesium (Mg), especially in the automobile and aerospace industries [1]. The main obstacle to the use of Mg is its susceptibility to corrosion. Fortunately, its corrosion rate is limited to some degree by the relatively slow rate of hydrogen evolution on the surface of magnesium.  However, the rate of corrosion increases significantly when Mg is galvanically co… Show more

“…[4][5][6] Particularly, the corrosion rates of Mg alloys will increase when they come into contact with other engineering metals. 7,8 Mg alloys act as anodes to other metals, which often occurs as serious attack because cathodes can accelerate the corrosion process. In practice, direct electrical contacts between Mg alloys and other metals are required or unavoidable in their applications because of the mechanical and electrical demands.…”

Corrosion behaviour of AZ80 Mg/beryllium–bronze–alloy galvanic couples in typical marine environment

“…[4][5][6] Particularly, the corrosion rates of Mg alloys will increase when they come into contact with other engineering metals. 7,8 Mg alloys act as anodes to other metals, which often occurs as serious attack because cathodes can accelerate the corrosion process. In practice, direct electrical contacts between Mg alloys and other metals are required or unavoidable in their applications because of the mechanical and electrical demands.…”

Corrosion behaviour of AZ80 Mg/beryllium–bronze–alloy galvanic couples in typical marine environment