High-temperature Oxidation Behavior of 9Cr Ferritic-steel in Carbon Dioxide

Keitarou Kaya; Shigenari Hayashi; Shigeharu Ukai

doi:10.2355/isijinternational.54.1379

Abstract

Commercial STBA26, 9Cr-1Mo ferritic steel, was exposed to CO₂ gas and air at 700°C in order to understand the oxidation behavior of a 9Cr-steel in CO₂ atmosphere. Oxidation of STBA26 was significantly accelerated in CO₂ compared to that in air. In CO₂ thick iron rich oxide nodules were formed on the steel and chromium rich carbides were found to form below the oxide scale.
The carbon activity at the scale/alloy interface was sufficiently high to maintain parabolic internal continuous carbon supply to the interface is considered to be a reason to cause a breakaway of protective oxide scale.

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