Constraints on the Fe-S melt connectivity in mantle silicates from electrical impedance measurements

Details Constraints on the Fe-S melt connectivity in mantle silicates from electrical impedance measurements Constraints on the Fe-S melt connectivity in mantle silicates from electrical impedance measurements

Dec 2009

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2009pepi..177..139b&link_type=abstract

Physics of the Earth and Planetary Interiors, Volume 177, Issue 3-4, p. 139-146.

Physics

5

Scientific paper

The connectivity of FeS melts in olivine and in a fertile peridotite matrix has been addressed through in situ electric impedance spectroscopy (IS) measurements at 1 GPa. A first series of experiments used sintered powder samples of a fertile peridotite xenolith mixed with 5-15 vol.% Fe70S30 of eutectic composition. The sheared high-T garnet peridotite with Mg# ˜ 0.90 is composed of 60 vol.% olivine, 15% orthopyroxene, 5.3% clinopyroxene and 19% garnet, the powder grain size was 20-30 μm, similar to the one employed by Yoshino et al. (2003). For a second series, San Carlos olivine aggregates were used as solid matrix and 10-20 vol.% of eutectic Fe70S30 were added. For these, the average grain size was 3 μm, much smaller than in the experiments by Yoshino et al. (2003). The powder mixtures of peridotite + Fe70S30 and olivine aggregates + Fe70S30 were first annealed for 2-5 days in a conventional piston cylinder at 1 GPa and 950-970 °C. The electrical conductivity of samples has been measured using the impedance spectroscopy method in a BN-graphite-CaF2 pressure cell with concentric cylindrical electrodes made from Mo- or Re-foil (the estimated oxygen fugacity was close to the IW-buffer). The results indicate that up to 15 vol.% of Fe70S30 the melt phase does not built a stable interconnected network in a peridotite matrix, as was recently indicated by Walte et al. (2007). The percolation threshold for a stable FeS network in olivine matrix lies at 17.5 vol.%, much higher the 6 vol.% found by Yoshino et al. (2003). Our result is in line with the high dihedral angles of typically 70-100° for Fe-S melts in mantle materials. The higher interconnectivity threshold of this study, as compared to previous studies (Yoshino et al., 2003, 2004; Roberts et al., 2007) is a result of our smaller starting grain sizes (for olivine) in combination with much longer run durations. Both these experimental conditions result in enhanced grain growth and thus to a higher degree of textural equilibration, leading to the occurrence of the time depending pinging off of Fe-S melt films in our texturally more mature experiments.

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