ABSTRACT

A vibratory induced cavitation facility was used to study the cavitation corrosion behavior of UNS G10950 alloy in seawater. The work included measurements of free corrosion potentials, and mass loss in the presence and absence of cavitation. The cavitation tests were made at a frequency of 20 KHz and at temperatures of 25°C. Cavitation conditions caused a noble shift in the free corrosion potential for UNS G10950 alloy. Cavitation also slightly increased the rate of mass loss of this alloy with respect to stagnant conditions. Another set of cavitation experiments was also carried out for this alloy in a nonconductive medium in order to distinguish between the mechanical and electrochemical factors that contribute to metal loss. Results indicated that the mechanical factor has an overriding role in metal loss of this alloy. Cavitation made the surface of this alloy slightly rough exhibiting very small cavity pits in the middle region of the attacked area as revealed by the scanning electron microscope (SEM). Mechanical factors were determined to be the leading cause of metal loss.

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