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Letter. Pressure-induced transformations in kaolinite

  • Mark D. Welch EMAIL logo and Wilson A. Crichton
Published/Copyright: April 2, 2015
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American Mineralogist
From the journal American Mineralogist Volume 95 Issue 4

Abstract

The compressional behavior of kaolinite (space group C1) from Keokuk, Iowa, has been studied to 7.8 GPa under static compression by synchrotron X-ray powder diffraction. Two phase transformations occur at ~3.7 (kaolinite-I/II) and ~7 GPa (kaolinite-II/III) that are registered by major changes in diffraction patterns. The layer shift involved in the I/II transformation preserves hydrogen-bonded contacts across the interlayer. This transformation removes cross-interlayer Al-Si superpositions and is analogous to the low-/ high-dickite transformation, which occurs at ~2.6 GPa (Dera at al. 2003). The 7 GPa transformation from kaolinite-II to “kaolinite-III” involves considerable contraction of the a-b plane (2.5%), marked shortening normal to the polyhedral layers, and a volume contraction of about 3%. Comparison of experimental patterns of kaolinite-III with those calculated for non-standard polytypes predicted by ab initio methods to 60 GPa by Mercier and Le Page (2009) allows the identification of kaolinite-III with their high-pressure, one-layer Model 18 polytype. Kaolinite-III can be quenched to room pressure, although significant transformation to kaolinite-I was observed at 0.5 GPa on decompression. At ambient conditions kaolinite-III is 6% more dense than kaolinite-I, nacrite, and low-dickite. Elastic moduli for kaolinite-I and kaolinite-III have been obtained that indicate that kaolinite-III is more compressible than kaolinite-I, due primarily to in-plane (a-b) softening. Both high-pressure polytypes encountered experimentally were predicted ab initio to be strong candidates for high-pressure structures by Mercier and Le Page (2008, 2009). This agreement between experimental and ab initio studies is encouraging for the application of ab initio methods to complex polytypic systems.

Keywords: Kaolinite; high pressure; transformations; polytypism
Received: 2009-9-28
Accepted: 2009-12-4
Published Online: 2015-4-2
Published in Print: 2010-4-1

© 2015 by Walter de Gruyter Berlin/Boston

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  26. Townendite, Na8ZrSi6O18, a new uranium-bearing lovozerite group mineral from the Ilímaussaq alkaline complex, Southern Greenland
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https://doi.org/10.2138/am.2010.3408
Keywords for this article
Kaolinite; high pressure; transformations; polytypism

Articles in the same Issue

  1. Fe site occupancy in magnetite-ulvöspinel solid solutions: A new approach using X-ray magnetic circular dichroism
  2. Discovery, mineral paragenesis, and origin of wadalite in a meteorite
  3. Cathodoluminescence microscopy and spectroscopy of synthetic ruby crystals grown by the optical floating zone technique
  4. Structural relaxation around Cr3+ and the red-green color change in the spinel (sensu stricto)-magnesiochromite (MgAl2O4-MgCr2O4) and gahnite-zincochromite (ZnAl2O4-ZnCr2O4) solid-solution series
  5. Recrystallization in fully metamict gadolinite from Ytterby (Sweden), annealed in air and studied by 57Fe Mössbauer spectroscopy
  6. Fantappièite, a new mineral of the cancrinite-sodalite group with a 33-layer stacking sequence: Occurrence and crystal structure
  7. Reinvestigation of the crystal structure of the zeolite gobbinsite: A single-crystal X-ray diffraction study
  8. Arsenic-rich fergusonite-beta-(Y) from Mount Cervandone (Western Alps, Italy): Crystal structure and genetic implications
  9. Crystal structure and low-temperature behavior of “disordered” thomsonite
  10. Cooling-induced crystallization of microlite crystals in two basaltic pumice clasts
  11. Crystal structure analyses of four tourmaline specimens from the Cleopatra’s Mines (Egypt) and Jabal Zalm (Saudi Arabia), and the role of Al in the tourmaline group
  12. Combined single-crystal X-ray and neutron powder diffraction structure analysis exemplified through full structure determinations of framework and layer beryllate minerals
  13. Olivine crystal size distributions in kimberlite
  14. Solubility of manganotantalite and manganocolumbite in pegmatitic melts
  15. The effect of silica on ferric/ferrous ratio in silicate melts: An experimental study using Mössbauer spectroscopy
  16. HRTEM investigation of trilling todorokite and nano-phase Mn-oxides in manganese dendrites
  17. Thermo-chemical and thermo-physical properties of the high-pressure phase anhydrous B (Mg14Si5O24): An ab-initio all-electron investigation
  18. The incommensurately modulated structures of natural natrite at 120 and 293 K from synchrotron X-ray data
  19. Sulfide oxidation observed using micro-Raman spectroscopy and micro-X-ray diffraction: The importance of water/rock ratios and pH conditions
  20. In situ measurements of plagioclase growth using SIMS depth profiles of 7Li/30Si: A means to acquire crystallization rates during short-duration decompression events
  21. Crystal chemistry of the MgAl2O4-MgMn2O4-MnMn2O4 system: Analysis of structural distortion in spinel- and hausmannite-type structures
  22. The effect of Al and water on the compressibility of diopside
  23. Geothermometric study of Mg-rich spinels from the Somma-Vesuvius volcanic complex (Naples, Italy)
  24. Serpentine minerals discrimination by thermal analysis
  25. A new type of cubic-stacked layer structure in anthoinite, AlWO3(OH)3
  26. Townendite, Na8ZrSi6O18, a new uranium-bearing lovozerite group mineral from the Ilímaussaq alkaline complex, Southern Greenland
  27. Letter. Pressure-induced transformations in kaolinite
  28. Letter. The crystal structure of gypsum-II determined by single-crystal synchrotron X-ray diffraction data
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