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10246 Effects of Electropolishing & Thermal Annealing on Corrosion/Release Behavior of Nicrfe Alloy 690

Product Number: 51300-10246-SG
ISBN: 10246 2010 CP
Author: J. T. Orr, S. E. Ziemniak, B. B. Penney, P. C. Sander and M. E. Hanson
Publication Date: 2010
$0.00
$20.00
$20.00
Electropolishing surfaces of UNS N06690 reduced the corrosion rate by about 90%, relative to asmachined surfaces, in deaerated, pH-adjusted water at 500°F. Testing was carried out in a Ti autoclave, in an effort to minimize pick-up of ferrous corrosion products from the autoclave. It was demonstrated that base metal was released to solution more rapidly at the beginning of the test, before a stable oxide film was able to passivate the coupon surface. After the film was established, metal release and oxide film growth proceeded more slowly. The film was Cr-rich, and consisted of fine crystals with a diameter of about 20 nm on electropolished surfaces, but consisted of fine and coarse crystals on the asmachined surfaces. Unlike previous corrosion/release tests, the major phase identified in the corrosion film was non-stoichiometric CrOOH rather than spinels of the form AB2O4. Minor amounts of spinel were identified, along with Ni metal. Thermal annealing of corrosion coupons also reduced corrosion rates of UNS N06690, but was not as effective as electropolishing.

Keywords: corrosion, UNS N06690, electropolishing, high temperature
Electropolishing surfaces of UNS N06690 reduced the corrosion rate by about 90%, relative to asmachined surfaces, in deaerated, pH-adjusted water at 500°F. Testing was carried out in a Ti autoclave, in an effort to minimize pick-up of ferrous corrosion products from the autoclave. It was demonstrated that base metal was released to solution more rapidly at the beginning of the test, before a stable oxide film was able to passivate the coupon surface. After the film was established, metal release and oxide film growth proceeded more slowly. The film was Cr-rich, and consisted of fine crystals with a diameter of about 20 nm on electropolished surfaces, but consisted of fine and coarse crystals on the asmachined surfaces. Unlike previous corrosion/release tests, the major phase identified in the corrosion film was non-stoichiometric CrOOH rather than spinels of the form AB2O4. Minor amounts of spinel were identified, along with Ni metal. Thermal annealing of corrosion coupons also reduced corrosion rates of UNS N06690, but was not as effective as electropolishing.

Keywords: corrosion, UNS N06690, electropolishing, high temperature
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