Corrosion properties of ECAP-processed Mg-Al-Ca-Mn alloys with separate Al2Ca and Mg2Ca phases

To investigate the effect of separate Al2Ca and Mg2Ca phases on the corrosion properties of Mg-Al-Ca-Mn alloys, OM, SEM, immersion and electrochemical tests were conducted on the as-cast and ECAP Al2Ca-containing (2Ca) and Mg2Ca-containing (4Ca) alloys. At the beginning of corrosion, the two as-cast alloys are corroded slowly compared with ECAP alloys. With prolonging the corrosion time, the corrosion of ECAP alloys becomes slighter than that of as-cast alloys, which is mainly ascribed to the dispersion and refinement of the second phase in ECAP alloys. Moreover, the corrosion degree of 2Ca alloys is always slighter than that of 4Ca alloys, suggesting that Al2Ca phase is more beneficial to the enhancement of corrosion resistance of Mg-Al-Ca-Mn based alloys than Mg2Ca phase. Finally, based on the examinations of corrosion surface and electrochemical testing results, different corrosion mechanisms caused by the distributions and morphology of Al2Ca and Mg2Ca phases are discussed.

Automated summary

This study investigates the effect of separate Al2Ca and Mg2Ca phases on the corrosion properties of Mg-Al-Ca-Mn alloys. The results show that ECAP alloys corrode slower compared to as-cast alloys, thanks to the dispersion and refinement of the second phase. Additionally, the corrosion degree is lower in the presence of the Al2Ca phase compared to the Mg2Ca phase, indicating that Al2Ca phase enhances the corrosion resistance of Mg-Al-Ca-Mn-based alloys more effectively.