Introduction to X-Ray Spectrometric Analysis / Edition 1 available in Paperback
- Pub. Date:
- Springer US
X-ray fluorescence spectrometry has been an established, widely practiced method of instrumental chemical analysis for about 30 years. However, although many colleges and universities offer full-semester courses in optical spectrometric methods of instrumental analysis and in x-ray dif fraction, very few offer full courses in x-ray spectrometric analysis. Those courses that are given are at the graduate level. Consequently, proficiency in this method must still be acquired by: self-instruction; on-the-job training and experience; "workshops" held by the x-ray instrument manu facturers; the one- or two-week summer courses offered by a few uni versities; and certain university courses in analytical and clinical chemistry, metallurgy, mineralogy. geology, ceramics. etc. that devote a small portion of their time to applications of x-ray spectrometry to those respective disciplines. Moreover, with all due respect to the books on x-ray spectrometric analysis now in print, in my opinion none is really suitable as a text or manual for beginners in the discipline. In 1968, when I undertook the writing of the first edition of my previous book, Principles and Practice of X-Ray Spectrometric Analysis,* my objective was to provide a student text. However, when all the material was compiled, I decided to provide a more comprehensive book, which was also lacking at that time. Although that book explains principles, instrumentation, and methods at the begin ner's level, this material is distributed throughout a mass of detail and more advanced material.
|Product dimensions:||5.98(w) x 9.02(h) x 0.36(d)|
Table of Contents1. Excitation and Nature of X-Rays and X-Ray Spectra.- 2. Properties of X-Rays.- 3. X-Ray Emission Spectrometric Analysis: General Introduction.- 4. Excitation; Wavelength Dispersion.- 5. Detection and Readout; X-Ray Intensity Measurement.- 6. Energy-Dispersive X-Ray Spectrometry.- 7. Qualitative and Semiquantitative Analysis.- 8. Problems and Performance Criteria.- 9. Quantitative Analysis.- 10. Specimen Preparation and Presentation.- 11. Electron-Probe Microanalysis.