Abstract
The corrosion characteristics and passive behavior of as-cast Ni(40)Fe(30)Co(20)Al(10) medium-entropy alloy (MEA) fabricated by the vacuum arc melting technique were investigated in 3.5 wt.% NaCl, 0.5 M HCl, and 0.5 M H(2)SO(4) solutions. Although the impact of different solutions on the corrosion current density was not pronounced, the corrosion potential values of MEAs in H(2)SO(4), HCl and NaCl solutions were -0.37, -0.58 and -1.16 V, respectively, indicating that the resistance to general corrosion in acidic solutions becomes strengthened. Through electrochemical passive region tests, surface morphology analysis and ICP testing, it was found that, due to the high-entropy effect and uniform single-phase structure, an optimized and stable passive film formed specifically in the Cl(-)-containing solution. The ion concentrations in the passive region of MEA in NaCl solution were an order of magnitude lower than those of other two samples, suggesting that its passive film formed exhibits a more prominent capacity to inhibit metal dissolution. Compared with electrochemical reactions in H(2)SO(4) and HCl solutions, MEA shows enhanced pitting resistance in NaCl solution, which could be attributed to the presence of abundant unoxidized metal atoms (51.9 at.%). Al is identified as the primary component in the formation of the passive film, which plays a protective role for the Co-rich interior of the MEA. Although MEA has a relatively high passivation current in the H(2)SO(4) solution, it has the widest passivation zone (1.87 V), indicating the optimized stability of the formed passive film. Moreover, it displays a high level of resistance to pitting corrosion in the solution containing only H(+)- and free of Cl(-). Both the MEAs show significant grain-boundary corrosion in H(2)SO(4) and HCl solutions. Among them, the MEA in HCl experiences more severe intragranular corrosion. Notably, MEA withstands the erosion of a single Cl(-)- or H(+)-containing solution, but it is unable to resist the synergistic effect of a solution containing both H(+) and Cl(-).