Quantitative X-ray diffraction analysis of clay-bearing rocks from random preparations

An internal standard X-ray diffraction (XRD) analysis technique permits reproducible and accurate calculation of the mineral contents of rocks, including the major clay mineral families: Fe-rich chlorites + berthierine, Mg-rich chlorites, Fe-rich dioctahedral 2:1 clays and micas, Al-rich dioctahedral 2:1 clays and micas, and kaolinites. A single XRD pattern from an air-dried random specimen is used. Clays are quantified from their 060 reflections which are well resolved and insensitive to structural defects. Zincite is used as the internal standard instead of corundum, because its reflections are more conveniently located and stronger, allowing for a smaller amount of spike (10%). The grinding technique used produces powders free of grains coarser than 20 µm and suitable for obtaining random and rigid specimens.Errors in accuracy are low, <2 wt. % deviation from actual values for individual minerals, as tested on artificial shale mixtures. No normalization is applied and thus, for natural rocks, the analysis is tested by the departure of the sum of the measured components from 100%. Our approach compares favorably with other quantitative analysis techniques, including a Rietveld-based technique.

[1]  S. Hillier,et al.  Use of an air brush to spray dry samples for X-ray powder diffraction , 1999, Clay Minerals.

[2]  G. Cressey,et al.  Rapid, Accurate Phase Quantification of Clay-Bearing Samples using a Position-Sensitive X-Ray Detector , 1998 .

[3]  V. Drits,et al.  Sequential structure transformation of illite-smectite-vermiculite during diagenesis of Upper Jurassic shales from the North Sea and Denmark , 1997, Clay Minerals.

[4]  B. O'Connor,et al.  The amorphous character and particle size distributions of powders produced with the Micronizing Mill for quantitative x‐ray powder diffractometry , 1986 .

[5]  L. Alexander,et al.  X-ray diffraction procedures , 1954 .

[6]  F. Chung,et al.  Quantitative interpretation of X-ray diffraction patterns of mixtures. I. Matrix-flushing method for quantitative multicomponent analysis , 1974 .

[7]  R. Snyder,et al.  5. QUANTITATIVE ANALYSIS , 1989 .

[8]  D. Mcmanus Suggestions for authors whose manuscripts include quantitative clay mineral analysis by X-ray diffraction , 1991 .

[9]  M. Mossman Orienting Internal Standard Method for Clay Mineral X-Ray Analysis , 1967 .

[10]  J. C. Taylor,et al.  Intensity Calibration Curves for Bragg-Brentano X-Ray Diffractometers , 1992, Powder Diffraction.

[11]  W. Brownell,et al.  Quantitative Phase Analysis of Devonian Shales by Computer Controlled X-Ray Diffraction of Spray Dried Samples , 1978 .

[12]  R. Reynolds Principles and Techniques of Quantitative Analysis of Clay Minerals by X-Ray Powder Diffraction , 1989 .

[13]  N. V. Philips,et al.  X-Ray Powder Diffraction in Europe , 1980 .

[14]  V. Drits,et al.  Illite-smectite structural changes during metamorphism in black Cambrian Alum shales from the Baltic area , 2000 .

[15]  Jack L. Johnson,et al.  Quantitative X-Ray Powder Diffraction Method Using the Full Diffraction Pattern , 1987, Powder Diffraction.

[16]  R. Snyder,et al.  RIR - Measurement and Use in Quantitative XRD , 1988, Powder Diffraction.

[17]  Robert L. Folk,et al.  Petrology of Sedimentary Rocks , 1974 .

[18]  R. Reynolds,et al.  Sample preparation for X-ray diffraction , 1989 .

[19]  C. Ward,et al.  Quantitative Mineralogy of Sandstones by X-Ray Diffractometry and Normative Analysis , 1999 .

[20]  J. C. Taylor,et al.  Computer Programs for Standardless Quantitative Analysis of Minerals Using the Full Powder Diffraction Profile , 1991, Powder Diffraction.

[21]  D. Bish,et al.  Quantitative phase analysis using the Rietveld method , 1988 .

[22]  W. Huff X-ray Diffraction and the Identification and Analysis of Clay Minerals , 1990 .

[23]  R. C. Mackenzie Mineralogical Society (London) , 1955 .

[24]  L. Alexander,et al.  Basic Aspects of X-Ray Absorption In Quantitative Diffraction Analysis of Powder Mixtures , 1948, Powder Diffraction.

[25]  J. C. Taylor,et al.  A new method for Rietveld clay analysis. Part I. Use of a universal measured standard profile for Rietveld quantification of montmorillonites , 1994, Powder Diffraction.

[26]  F. L. Lynch Frio Shale Mineralogy and the Stoichiometry of the Smectite-to-Illite Reaction: The Most Important Reaction in Clastic Sedimentary Diagenesis , 1997 .