The Effects of KCl, K2SO4 and K2CO3 on the High Temperature Corrosion of a 304-Type Austenitic Stainless Steel
Journal article, 2011

The oxidation of 304-type (Fe18Cr10Ni) austenitic stainless steel was investigated at 500 and 600 degrees C in 5% O(2) + 40% H(2)O. Prior to exposure the samples were sprayed with KCl, K(2)CO(3) or K(2)SO(4), the amount of salt corresponding to 1.35 mu mol K(+)/cm(2). For reference, salt-free samples were exposed in 5% O(2) + 40% H(2)O and in 5% O(2) (N(2) was used as carrier gas). The oxidized samples were analyzed with SEM/EDX, XRD, IC and FIB. KCl and K(2)CO(3) strongly accelerate the corrosion of 304L while K(2)SO(4) has little influence on the corrosion rate and on the morphology of the corroded surface. KCl and K(2)CO(3) react with the chromium-rich oxide on the sample surface, forming K(2)CrO(4). The resulting chromium depletion of the protective oxide causes rapid oxidation and the formation of a thick duplex scale consisting of an outer hematite layer and a inner layer made up of FeCrNi spinel-type oxide. The differences in the corrosivity of the three salts are directly connected to their ability to form chromate on the surface and, hence, to the relative stability of the corresponding leaving groups (HCl, CO(2) and SO(3)).

flow-rate

oxidation

deposits

304L

fired cfb boiler

K(2)SO(4)

600-degrees-c

Waste

steel

alloy sanicro 28

KCl induced corrosion

water-vapor

Biomass

Deposit

11-percent chromium

oxide hydroxide evaporation

biomass

Author

Jesper Pettersson

Chalmers, Chemical and Biological Engineering, Environmental Inorganic Chemistry

Nicklas Folkeson

Chalmers, Chemical and Biological Engineering, Environmental Inorganic Chemistry

Lars-Gunnar Johansson

Chalmers, Chemical and Biological Engineering, Environmental Inorganic Chemistry

Jan-Erik Svensson

Chalmers, Chemical and Biological Engineering, Environmental Inorganic Chemistry

Oxidation of Metals

0030-770X (ISSN) 1573-4889 (eISSN)

Vol. 76 1-2 93-109

Subject Categories

Environmental Sciences

DOI

10.1007/s11085-011-9240-z

More information

Latest update

10/15/2018