Stainless steel reinforcing bars show excellent corrosion resistance in concrete structures exposed to harsh environments. Only little information on the surface chemistry of these materials in alkaline media is available. This work reports XPS surface analytical results (thickness, composition of the passive film and of the interface beneath the film) obtained on black steel, FeCr alloys, DIN 1.4301, DIN 1.4462 and the nickel-free DIN 1.4456 after exposure to alkaline solutions simulating concrete. The pitting potentials of the steels could be related to the Cr(III)oxy-hydroxide and Mo(VI) content in the passive film. Ccrit, the critical chloride content for corrosion initiation in concrete, necessary for life-time predictions can be determined only with time consuming tests, especially for high-alloyed stainless steels. This work reports a correlation between Ccrit in concrete (made with CEM II A/LL and CEM I) and the pitting potential for carbon steel, Fe12%Cr alloy, DIN 1.4301 and DIN 1.4571 stainless steels. This could allow for the first time a quantitative estimation of Ccrit for stainless steels in concrete based on short-term solution tests.

Stainless steels: passive film composition, pitting potentials and critical chloride content in concrete

Bernhard Elsener
;
Marzia Fantauzzi;Antonella Rossi
2020-01-01

Abstract

Stainless steel reinforcing bars show excellent corrosion resistance in concrete structures exposed to harsh environments. Only little information on the surface chemistry of these materials in alkaline media is available. This work reports XPS surface analytical results (thickness, composition of the passive film and of the interface beneath the film) obtained on black steel, FeCr alloys, DIN 1.4301, DIN 1.4462 and the nickel-free DIN 1.4456 after exposure to alkaline solutions simulating concrete. The pitting potentials of the steels could be related to the Cr(III)oxy-hydroxide and Mo(VI) content in the passive film. Ccrit, the critical chloride content for corrosion initiation in concrete, necessary for life-time predictions can be determined only with time consuming tests, especially for high-alloyed stainless steels. This work reports a correlation between Ccrit in concrete (made with CEM II A/LL and CEM I) and the pitting potential for carbon steel, Fe12%Cr alloy, DIN 1.4301 and DIN 1.4571 stainless steels. This could allow for the first time a quantitative estimation of Ccrit for stainless steels in concrete based on short-term solution tests.
2020
critical chloride content; pitting; stainless steels; XPS surface analysis; reinforced concrete
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11584/284441
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