Non-equilibrium concepts lead to a unified explanation of the formation of chondrules and chondrites

Details Non-equilibrium concepts lead to a unified explanation of the formation of chondrules and chondrites Non-equilibrium concepts lead to a unified explanation of the formation of chondrules and chondrites

Dec 2004

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2004m%26ps...39.1897b&link_type=abstract

Meteoritics & Planetary Science, Vol. 39, No. 12, p.1897-1910

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Scientific paper

Calculations of the formation of seven types of chondrules in Semarkona from a gas of solar composition were performed with the Fact computer program to predict the chemistries of oxides, including silicates, developed by the authors and their colleagues. The constrained equilibrium theory was used in the calculations with two nucleation constraints suggested by nucleation theory. The first constraint was the blocking of Fe and other metal gaseous atoms from condensing to form solids or liquids because of the very high surface free energies and high surface tensions of the solid and liquid metals, respectively. The second constraint was the blocking of the condensation of solids and the formation of metastable liquid oxides (including silicates) well below their liquidus temperatures. Our laboratory experiments suggested subcooling of type IIA chondrule compositions of 400 degrees or more below the liquidus temperature. The blocking of iron leads to a supersaturation of Fe atoms, so that the partial pressure of Fe (pFe) is larger than the partial pressure at equilibrium (pFe(eq)). The supersaturation ratio S = pFe/pFe(eq) becomes larger than 1 and increases rapidly with a decrease in temperature. This drives the reaction Fe + H2O ??H2 + FeO to the right. With S = 100, the activity of FeO in the liquid droplet is 100 times as large as the value at equilibrium. The FeO activities are a function of temperature and provide relative average temperatures of the crystallization of chondrules. Our calculations for the LL3.0 chondrite Semarkona and our study of some non-equilibrium effects lead to accurate representations of the compositions of chondrules of types IA, IAB, IB, IIA, IIAB, IIB, and CC. Our concepts readily explain both the variety of FeO concentrations in the different chondrule types and the entire process of chondrule formation. Our theory is unified and could possibly explain the formation of chondrules in all chondritic meteorites as well as provide a simple explanation for the complex chemistries of chondrites, especially type 3 chondrites.

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