The Oxidation of Dilute Iron-Silicon Alloys ((Si) < or = 1 w/o) in Carbon Dioxide,
Abstract
The manner in which silicon, present as a minor alloy constituent, modifies the oxidation of iron in CO2/1% CO at 500 degrees C has been studied. Increasing amounts of silicon progressively reduce the oxidation rate within the range (Si) = 0-1w/o and a variety of physical techniques have been used to examine oxidized specimens in pursuit of the origins of this beneficial influence. The scale forming on the alloys is composed of two layers in each of which iron is present as Fe3O4. The inner layer of scale contains silicon at approximately the same level (on a volume % basis) as the original metal while the outer scale appears to contain no silicon. The boundary between the two layers is also marked by an abrupt change in grain size and in texture of the Fe3O4. At the boundary between the alloy and the scale there develops a thin layer of non-ferrous material in which the concentration of silicon is increased by more than an order of magnitude above that in the bulk alloy. This layer also includes a substantial accumulation of carbon which is thought to derive from carbon oxide gases which have penetrated to the base of the scale before taking part in the oxidation reaction.
Document Details
- Document Type
- Technical Report
- Publication Date
- Feb 01, 1981
- Accession Number
- ADA108328
Entities
People
- G. Tappin
- J. C. Riviere
- P. T. Moseley