The electrochemical and corrosion characteristics of Types 383, 304, and 316 stainless steel in 1N¯ H2SO4 were determined using precision potentiostatic polarization and conventional coupon exposure/weight change techniques. Factors increasing the magnitude of the critical anodic current density, Ic, are shown to have a deleterious effect on the passivating tendencies of Type 304 alloys. Statistical analysis of the electrochemical properties of Type 304 alloy has shown that Ic is related to chemical constitution by the following relationship:

Control of the detrimental effects of sulfur and manganese in Type 304 alloys can be obtained during manufacture by an increase in copper and molybdenum content.

Subject
Sulfur, Composition, Stainless alloys, Correlation, Corrosion rate, Molybdenum alloys, Corrosion testing, Copper alloys, Steel, Passivation, Stainless steel, Samples, Critical anodic current density
© 1969 National Association of Corrosion Engineers
1969
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