Effects of rare earth modifying inclusions on the pitting corrosion of 13Cr4Ni martensitic stainless

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In this study,the pitting corrosion behavior of 13Cr4Ni martensitic stainless steel (BASE) and that mod-ified with rare earth (REM) in 0.1 mol/L NaCl solution were characterized.Techniques such as automatic secondary electron microscope (ASPEX PSEM detector),scanning electron microscope (SEM),transmission electron microscope (TEM),scanning Kelvin probe force microscope (SKP),potentiodynamic and poten-tiostatic polarizations were employed.The results obtained indicate that BASE steel contains Al2O3/MnS,Al2O3 and MnS inclusions,while REM steels contain (La,Ce,Cr,Fe)-O and (La,Ce,Cr,Fe)-O-S inclusions.Compared with BASE steel,REM steel is more susceptible to induce the metastable pitting nucleation and repassivation,whereas it restrains the transition from metastable pitting to stable pitting.Adding 0.021%rare earth element to BASE steel can reduce the number and area of inclusions,while that of 0.058% can increase the number and enlarged the size of inclusions,which is also the reason that pitting corrosion resistance of 58REM steel is slightly lower than that of 21REM steel.in the process of pitting corrosion induced by Al2O3/MnS inclusions,MnS is preferentially anodic dissolved,and also the matrix contacted with Al2O3 is subsequently anodic dissolved.For REM steels,anodic dissolution preferentially occurs at the boundary between inclusions and matrix,while (La,Ce,Cr,Fe)-O inclusions chemically dissolve in local acidic environment or are separated from steel matrix.The chemically dissolved substance (La3+and Ce3+) of (La,Ce,Cr,Fe)-O inclusions are concentrated in pitting pits,which inhibits its continuous
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