@article{3017181,
    title = "A multi-analytical study of the crystal structure of unusual Ti-Zr-Cr-rich Andradite from the Maronia skarn, Rhodope massif, western Thrace, Greece",
    author = "Katerinopoulou, A. and Katerinopoulos, A. and Voudouris, P. and Bieniok, A. and Musso, M. and Amthauer, G.",
    journal = "Mineralogy and Petrology",
    year = "2009",
    volume = "95",
    number = "1-2",
    pages = "113-124",
    publisher = "Springer-Verlag Wien",
    issn = "0930-0708",
    doi = "10.1007/s00710-008-0023-4",
    keywords = "andradite;  chromium;  crystal chemistry;  crystal structure;  crystallography;  electron probe analysis;  high temperature;  infrared spectroscopy;  Mossbauer spectroscopy;  Raman spectroscopy;  skarn;  titanium;  X-ray diffraction;  zirconium, Thrace",
    abstract = "Unusual Ti-Cr-Zr-rich garnet crystals from high-temperature melilitic skarn of the Maronia area, western Thrace, Greece, were investigated by electron-microprobe analysis, powder and single-crystal X-ray diffraction, IR, Raman and Mössbauer spectroscopy. Chemical data showed that the garnets contain up to 8 wt.% TiO2, 8 wt.% Cr2O3 and 4 wt.% ZrO2, representing a solid solution of andradite (Ca3Fe3+2 Si3O12 ≈46 mol%), uvarovite (Ca3 Cr2Si3O12 ≈23 mol%), grossular (Ca3Al2Si3O12 ≈10 mol%), schorlomite (Ca3Ti2[Si,(Fe3+, Al3+)2]O12 ≈15 mol%), and kimzeyite (Ca3Zr2 [Si,Al2]3 O12 ≈6 mol%). The Mössbauer analysis showed that the total Fe is ferric, preferentially located at the octahedral site and to a smaller extent at the tetrahedral site. Single-crystal XRD analysis, Raman and IR spectroscopy verified substitution of Si mainly by Al3+, Fe3+ and Ti4+. Cr3+ and Zr4+ are found at the octahedral site along with Fe3+, Al3+ and Ti4+. The measured H2O content is 0.20 wt.%. The analytical data suggest that the structural formula of the Maronia garnet can be given as: (Ca2.99Mg0.03) ∑=3.02 (Fe3+0.67Cr0.54Al0.33 Ti0.29Zr0.15)∑=1.98 (Si2.42Ti0.24Fe0.18Al0.14) ∑=2.98O12OH0.11. Ti-rich garnets are not common and their crystal chemistry is still under investigation. The present work presents new evidence that will enable the elucidation of the structural chemistry of Ti- and Cr-rich garnets. © Springer-Verlag 2008."
}