Corrosion behavior of a Co-Cr-Mo-Si alloy in pure Al and Al-Si melt

Metallic phase change materials (MPCMs) are attracting considerable attention for their application in thermal energy storage. Al-Si alloys are considered potential MPCMs; however, to develop storage systems/modules, it is crucial to fabricate corrosion-resistant materials for MPCMs. In this study, the corrosion behavior of Co-28Cr-6Mo-1.5Si (wt%) alloy was examined via immersion tests in commercial Al-Si alloy (ADC12) melt at 700? for 10 h. The results were compared to those obtained for pure Al. Substrate thickness loss measurements revealed that the liquid metal corrosion was more severe in the Al-Si melt than that in pure Al, suggesting an increased reactivity due to Si addition. Interfacial analysis elucidated a direct reaction between the alloy substrate and molten Al in both cases. Furthermore, the formation of oxides such as Al2O3 and SiO2 did not contribute to corrosion resistance.

Automated summary

In this study, the corrosion behavior of Co-28Cr-6Mo-1.5Si (wt%) alloy in commercial Al-Si alloy (ADC12) melt at 700? for 10 h was investigated. The results showed that liquid metal corrosion was more severe in the Al-Si melt than in pure Al, indicating increased reactivity due to Si addition. The interfacial analysis revealed a direct reaction between the alloy substrate and molten Al in both cases, and the formation of oxides such as Al2O3 and SiO2 did not contribute to corrosion resistance.