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Analysis of Diatomaceous Earth by X-ray Fluorescence Techniques

Published online by Cambridge University Press:  06 March 2019

Jim Parker
Jim Parker*
Affiliation:
Manville Research and Development Center P.O. Box 5108 Denver, Colorado 80217
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Extract

The use of diatomaceous earth in industry as filtering aids, mineral fillers, catalyst carriers, chromatographic supports, and paint additives is well documented. The diatomite matrix is well suited to x-ray analysis, but this application has not been cited in the literature. In our laboratory, x-ray fluorescence spectrometry has been used to support the analytical needs of diatomite product development. Lithium borate fusion and pressed powder techniques have been used to determine major, minor, and trace elements in diatomite and synthetic silicate samples. Conventional matrix correction models and fundamental parameters have been used to reduce x-ray measurements to accurate chemical analyses.

Type
VI. XRF Applications: Mineralogical, General
Information
Advances in X-Ray Analysis , Volume 28: Thirty-Third Annual Conference on Applications of X-ray Analysis, July 30 - August 3, 1984 , 1984 , pp. 203 - 208
Copyright
Copyright © International Centre for Diffraction Data 1984

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References

1.John Crise, “Fundamental Parameter Calculations on a Laboratory Microcomputer,” Advances in X-ray-Analysis Vol. 23, p 93 (1980).Google Scholar
2. Smith, T. K., “Versatile XRF Analytical System for Geochemical Exploration and Other Applications, ” Advances in X-ray Analysis. Vol. 27, p 481 (1984).Google Scholar
3. Bowling, G. D., Ailin-Pyzik, I. B., and Jones, D.R. IV, “Rapid, Low Cost, Manual Fusion Sample Preparation Technique for Quantitative X - ray Fluorescence Analysis,” Advances in X-ray Analysis. Vol. 27, p 491 (1984).Google Scholar