Resistance of steels to pitting and crevice corrosion in chloride solutions

The localised corrosion resistance (pitting and crevice corrosion) of two high alloy stainless steels, namely superduplex (SD) and superaustenitic (SA), has been studied in chloride-fluoride solutions at pH values ranging from 2 to 6.5. The pitting potential (E pit ) and crevice potential (E cre ) h

## Abstract Superaustenites are mainly used in offshore applications, oil production and chemical industry. Most important types of localised corrosion of these steels are pitting and crevice corrosion. Investigated materials were N08028, S31254 and three modified alloys. Chromium content of invest

## Abstract This paper presents new data on the resistance of recently developed high‐alloy stainless steels to localised corrosion in chloride solutions. Pitting potential was determined in artificial sea water, and critical pitting temperature CPT in very aggressive FeCl~3~ solution. Critical cre

## Abstract The adequacy of 7 parameters of potentiokinetic curves for evaluating the resistance to pitting corrosion in sodium chloride solutions was quantitatively assessed by reference to immersion testing in ferric chloride solutions for 11 type CrNi (MoTiCu) stainless steels on the basis of 31