2007 Volume 48 Issue 5 Pages 1023-1028
The effect of Ca addition on the corrosion resistance of AZ31 magnesium alloys was evaluated by observation of microstructure and measurement of corrosion potential and average corrosion rate. The main mechanism of corrosion of AZ31+xCa (x=0∼5 mass%) alloys was galvanic-corrosion between α-Mg and second phase. But the propagation behavior of corrosion was different with Ca content. In the alloy containing below 0.7 mass%Ca, a micro-galvanic cell formed between matrix α-Mg and second phase formed semi-continuously at grain boundaries and the corrosion progressed in transgranular mode. The propagation of corrosion was retarded when the corrosion front met the second phase acted as corrosion barrier. But in the alloys containing above 1 mass%Ca, a micro-galvanic cell formed between eutectic α-Mg and discontinuous second phase in the eutectic region and the corrosion rapidly progressed along eutectic α-Mg formed continuously at grain boundaries because the discontinuous second phase could not prohibit the propagation of corrosion effectively.