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Rapid Analysis of Mn in Plain Carbon Steels by Nondispersive X-Ray Fluorescence Spectroscopy

Published online by Cambridge University Press:  06 March 2019

R. J. Gehrke ,
M. S. Cole  and
W. A. Ryder
R. J. Gehrke
Affiliation:
Aerojet Nuclear Company, National Reactor Testing Station Idaho Falls, Idaho
M. S. Cole
Affiliation:
Aerojet Nuclear Company, National Reactor Testing Station Idaho Falls, Idaho
W. A. Ryder
Affiliation:
Allied Chemical Corporation Idaho Falls, Idaho
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Abstract

Plain carbon steels are primarily composed of iron (~97%), but generally have small quantities of carbon, manganese, sulfur, phosphorous and silicon also present. Lead or copper may also be present. The steel industry is in need of an on-line technique of analysis for manganese in these steels. The manganese concentration of these steels varies from 0.3 to 1.5%. A technique is presented for the rapid analysis of manganese in carbon steels using energy dispersive x-ray fluorescence spectroscopy. It is capable of determining the manganese content of a carbon steel in. less than 30 sec with an uncertainty of less than 0.05% manganese. Because this method can analyze a steel from a distance of two feet, it should be possible to adequately protect the x-ray fluorescence spectrometer from the environment even when analyses are made of hot steel ingots at temperatures ranging up to 2400°F.

Type
Research Article
Information
Advances in X-Ray Analysis , Volume 15: Twentieth Annual Conference on Applications of X-ray Analysis, August 11-13, 1971 , 1971 , pp. 276 - 284
Copyright
Copyright © International Centre for Diffraction Data 1971

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References

1. Rhodes, J. R., Hunter, C. B., Kellog, D. L., Sieberg, R. D. and Furuta, T., “Application of a Computer-Coupled Radioisotope X-Ray Spectrometer to Analysis of Steels”, in Barrett, C. S., Newkirk, J. B. and Ruud, C. O., Editors, Advances in X-Ray Analysis, Vol. 14, Plenum Press, New York, pp. 127138 (1971).Google Scholar
2. Sellers, B. and Brinkerhoff, J., “Signature Comparison Technique for Rapid Alloy Sorting with a Radioisotope Excited X-Ray Analyser”, Materials Research and Standards, Vol. 10, No. 11, pp. 1618 (1970).Google Scholar
3. “Radioisotope X-Ray Fluorescence Spectrometry”, IAEA Technical Report Series No. 115 Vienna (1970), IAEA STI/DOC/l0/115.Google Scholar