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Licensed Unlicensed Requires Authentication Published by De Gruyter March 26, 2015

High-pressure crystal chemistry of Fe3+-wadsleyite, β-Fe2.33Si0.67O4

  • Robert M. Hazen EMAIL logo , Hexiong Yang and Charles T. Prewitt
From the journal American Mineralogist
https://doi.org/10.2138/am-2000-5-618

Abstract

The crystal structure of Fe3+-wadsleyite, (Fe1.672+Fe0.333+)(Fe0.333+Si0.67)O4, was determined by single­crystal X-ray techniques at six pressures to 8.95 GPa. The isothermal bulk modulus is KT0 = 173(3) GPa [K′T0 = ∂KT /∂P = 5.2(9)], which is identical within error to bulk moduli observed for normal wadsleyites [β-(Mg5Fe)2SiO4]. Compression of Fe3+-wadsleyite is significantly more isotropic than for β-(Mg5Fe)2SiO4 because Fe3+ substitutes into both Si4+tetrahedral sites and (Mg5Fe2+) octahedral sites. Ferric iron thus reduces the contrast between tetrahedral and octahedral compressibilities, which in turn reduces the compressional anisotropy. Bond distance analysis and octahedral compressibilities of the three symmetrically distinct octahedral sites reveal that Fe3+ orders prefer­entially into M1 and M3, while M2 occupancy is close to pure Fe2+.

Received: 1999-7-26
Accepted: 1999-12-20
Published Online: 2015-3-26
Published in Print: 2000-5-1

© 2015 by Walter de Gruyter Berlin/Boston

From the journal
American Mineralogist
American Mineralogist
Volume 85 Issue 5-6

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