Effect of complex inclusions on pit initiation in 18% chromium-8% nickel stainless steel types 303, 304, and 321

Dowling, N J.E.; Duret-Thual, C; Auclair, G; Audouard, J P; Combrade, P

doi:10.5006/1.3293599

Title: Effect of complex inclusions on pit initiation in 18% chromium-8% nickel stainless steel types 303, 304, and 321

Journal Article · Mon May 01 00:00:00 EDT 1995 · Corrosion

DOI:https://doi.org/10.5006/1.3293599· OSTI ID:46075

Dowling, N J.E. ^[1]; Duret-Thual, C ^[2]; Auclair, G ^[3]; Audouard, J P ^[4]; Combrade, P ^[5]

IRSID, Maiziere-les-Metz (France). Corrosion Dept.
Correx, Fraisses (France)
Ascometal Recherche, Amneville (France)
Creusot-Loire Industrie, Le Creusot (France)
Framatome, Le Creusot (France)

Several grades of 18% chromium-8% nickel stainless steel (SS) with varying sulfur contents and immersed in 3% sodium chloride demonstrated essentially passive behaviors, with local depassivation events monitored as sharp negative changes in the free corrosion potential. Electrochemical desulfurization or trapping of the inclusion sulfides (with cadmium in the electrolyte or titanium in the solid metal matrix) reduced the initiation rates associated with depassivation transients and changed the properties of the alloys markedly. A control experimental heat with high purity and few pinpoint inclusions showed an almost complete absence of transients. Precipitation of sulfides (as their cadmium salts) originating from inclusions showed the corrosion behavior of type 303 SS was governed by the sulfur content, but grades with lower sulfur contents (e.g., type 304 SS) were more controlled by crystallized oxides of aluminum, calcium, and chromium that appeared to determine the frequency and duration of the depassivation transients. An exponential decrease in transients over time was observed with all steels containing > 0.003% sulfur. Introduction of titanium into the solid steel matrix (type 321 SS) trapped available sulfur and produced an almost transient-free characteristic. A relationship between the number of transients and the initial number of pit initiation sites was described.

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Sponsoring Organization:: USDOE

OSTI ID:: 46075

Journal Information:: Corrosion, Vol. 51, Issue 5; Other Information: PBD: May 1995

Country of Publication:: United States

Language:: English

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Related Subjects

36 MATERIALS SCIENCE
STAINLESS STEEL-303
PITTING CORROSION
STAINLESS STEEL-304
STAINLESS STEEL-321
SULFUR CONTENT
SODIUM CHLORIDES
INCLUSIONS
SULFIDES
PASSIVATION
TITANIUM
METALLURGICAL EFFECTS

Title: Effect of complex inclusions on pit initiation in 18% chromium-8% nickel stainless steel types 303, 304, and 321

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