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Quantitative X-Ray Diffraction Phase Analysis of the Oxidation of Steel by a Direct Comparison Method

Published online by Cambridge University Press:  06 March 2019

R. R. Biederman
Affiliation:
Worcester Polytechnic Institute, Worcester, Massachusetts 01609
R. F. Bourgault
Affiliation:
Worcester Polytechnic Institute, Worcester, Massachusetts 01609
R. W. Smith
Affiliation:
Worcester Polytechnic Institute, Worcester, Massachusetts 01609
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Abstract

A direct comparison x-ray method using crystal structure Information has been developed for rapid quantitative analysis of the oxide phases present in oxidized steels. This procedure is similar to that used for the analysis of retained austenite in hardened steels and requires no external or internal standards for accurate oxide determinations. Successful application of this technique has been achieved for a variety of steel oxide mixtures and excellent correlation with microstructural analysis results has been found. Accurate determinations have been made of the volume fractions of Wustite (FeO), Magnetite (Fe3O4) and Hematite (Fe2O3) for a wide range in steel carbon content and transformation treatments. Many oxide mixtures that differ over a wide range in the amounts of each of the three oxides phases have been measured successfully. The procedure is simple, the method direct and the analysis accurate.

Type
Research Article
Copyright
Copyright © International Centre for Diffraction Data 1973

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References

1. Dehoff, R. T. and Rhines, F. N., “Quantitative MicroscopyMcGraw-Hill (1968).Google Scholar
2. Averbach, B. L. and Cohen, M., “X-ray Determination of Retained Austenite by Integrated Intensities”, Trans. AIME 176, p. 401415 (1948).Google Scholar
3. Cullity, B. D., “Elements of X-ray Diffraction”, p. 388400, Addison-Wesley Publishing Co. (1956).Google Scholar
4. Gullberg, R and Lagneborg, R., “X-ray Determination of the Volume Fraction of Phases in Textured Materials”, Trans. AIME 236, p. 14821485 (1966).Google Scholar
5. ASTM CARD 6-0615-Wustite-Inorganic X-ray Powder Data File, American Society for Testing Materials.Google Scholar
6. ASTM CARD 11-614-Magnetite-Inorganic X∼ray Powder Data File, American Society for Testing Materials.Google Scholar
7. ASTM CARD 13-534-Hematite-Inorganic X-ray Powder Data File, American Society for Testing Materials.Google Scholar
8. “International Tables for X-ray Crystallography”, Vol. II & III, The Kynoch Press (1962).Google Scholar