METAL DUSTING OF LOW-ALLOY STEELS

The metal dusting of two low alloy steels was investigated at 475-degr ees-C in flowing CO-H2-H2O mixtures at atmospheric pressure and a(C) > 1. The reaction sequence comprises: (1) oversaturation with C, format ion of cementite and its decomposition to metal particles and carbon, and (2) additional carbon deposition on the metal particles from the a tmosphere. The metal wastage rate r1 was determined by analysis of the corrosion product after exposures, this rate is constant with time an d virtually independent of the environment. The carbon deposition from the atmosphere was determined by thermogravimetry, its rate r2 increa ses linearly with time, which can be explained by the catalytic action of the metal particles - periodic changes are superposed. The rate of carbon deposition r2 is proportional to the carbon activity in the at mosphere. The metal dusting could not be suppressed by increasing the oxygen activity or preoxidation, even if magnetite should be stable. A ddition of H2S, however, effectively suppresses the attack.