X-Ray Fluorescence Analysis in a Steel Foundry

Textbooks

1. W. R. Brode: Chemical Spectroscopy, John Wiley and Sons, Inc.

2. Metal Spectroscopy, Charles Griffin & Co., Ltd.

3. Methods for Emission Spectrochemical Analysis; chapters on General Practices; Nomenclature; Tentative Methods; Suggested Methods; American Society for Testing and Materials.

4. F. M. Fiffen and W. Seaman: Modern Instruments in Chemical Analysis; McGraw-Hill Book Co., Inc.

5. Harrison, Lord, and Loofbourow: Practical Spectroscopy; Prentice-Hall, Inc.

6. L. H. Ahrens: Spectrochemical Analysis; Addison-Wesley Publishing Co., Inc.

7. Theory and Practice of X-Ray Fluorescence; Philips Electronics Instruments Co.

8. H. A. Liebhafsky, H. G. Pfeiffer, E. W. Winslow, and P. D. Zemany: X-Ray Absorption and Emission in Analytical Chemistry; John Wiley and Sons, Inc.

9. X-Ray and Optical Emission Analysis of High-Temperature Alloys; American Society for Testing and Materials—Special Publication No. 376.

10. L. S. Birks: X-Ray Spectrochemical Analysis; Interscience Publishers, Inc.

Technical Papers

1. Automatic Analysis Speeds Production of Alloy Steels; Iron and Steel, vol. 36, April 1963, p. 170.

2. H. J. Beattie and R. M. Brissey: Calibration Method for X-Ray Fluorescence Spectrometry; Analytical Chemistry, vol. 26, 1954, pp. 980–983.

   Article  Google Scholar 

3. Determination of the Inter-element Effect in the X-Ray Fluorescence Analysis of Cr in Steels; Spectrochimica Acta, vol. 17, 1961, pp. 379–383.

4. N. M. Sine and C. L. Lewis: Determination of Minor and Trace Elements in Nickel by X-Ray Spectrometry; Talanta, vol. 12, 1965, pp. 389–394.

   Article  Google Scholar 

5. R. E. Michaelis et al.: Determination of Minor Constituents in Low-Alloy Steels by X-Ray Spectroscopy; Journal of Research of the National Bureau of Standards, vol. 65C, no. 1, January 1961, pp. 71–76.

   Google Scholar 

6. John H. Kelly: Direct Reading Spectrochemical Analysis Using X-Ray and Optical Emission Techniques; Canadian Mining and Metallurgical Bulletin, vol. 52, November 1959, pp. 687–693.

   Google Scholar 

7. R. Jenkins and P. W. Hurley: Effects of Surface Finish in the X-Ray Fluorescence Analysis of Bulf Metals; Scientific and Analytical Equipment Bulletin, Philips, Eindhoven, 1956.

   Google Scholar 

8. H. D. Burnham, John Hower, and L. C. Jones: Generalized X-Ray Emission Spectrographic Calibration Applicable to Varying Compositions and Sample Forms; Analytical Chemistry, vol. 29, 1957, pp. 1827–1834.

   Article  Google Scholar 

9. J. C Wagner and F. R. Bryan: On the Choice of Crystals for the Detection of Light Elements by X-Ray Fluorescence; Journal of Applied Spectroscopy, vol. 18, no. 5, 1964, p. 157.

   Article  Google Scholar 

10. D. Manterfield and W. S. Sykes: Production Control Quantometer for Steelworks Analysis; Journal of the Iron and Steel Institute, vol. 185, January 1957, pp. 105–113.

    Google Scholar 

11. L. G. Bonar: Spectrometry in the Steel Foundry; Steel Foundry Facts, no. 245, April 1964.

12. W. R. Thorpe: The Vacuum Spectrograph as a Production Tool; Spectrographer’s News Letter (Applied Research Laboratories), vol. XIV, no. 4.

13. E. L. Roth and G. Antonio: Vacuum Spectrometer Aids Grey Iron Foundry Control; Foundry, vol. 89, March 1961, p. 149.

    Google Scholar 

14. C. L. Winchester: Vacuum Spectroscopy Gives Rapid Steel Analysis; Journal of Metals, vol. 10, no. 11, 1958, pp. 735–737.

    Google Scholar 

Download references