Observations of chloride- and thiosulphate-induced pitting in stainless steels

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 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

## Abstract On a cost‐performance basis, superferritic stainless steel (SFSS) grades can now be considered competitive choices for brackish and sea water cooling systems. The pitting corrosion of a SFSS (X2CrNiMoTi 25 3.6 3.5) was tested in a chloride/sulfate solution similar to sea water, as a fun

## Abstract In the temperature range from 6 to 40°C the temperature dependence of pitting corrosion may be expressed by the Arthenius‐equation. The lowering of the breakdown potential in this range shows a linear dependence on the reziprokal value of the absolute temperatur. From the temperature de