Kinetics of iron redox reaction in silicate melts: A high temperature Xanes study on an alkali basalt

doi:10.1088/1742-6596/190/1/012182

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Journal of Physics: Conference Series

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Journal of Physics: Conference Series Volume 190 Number 1 Create an alert RSS this journal

B Cochain et al 2009 J. Phys.: Conf. Ser. 190 012182 doi:10.1088/1742-6596/190/1/012182

Kinetics of iron redox reaction in silicate melts: A high temperature Xanes study on an alkali basalt

B Cochain¹, D R Neuville¹, D de Ligny², J Roux¹, F Baudelet³, E Strukelj¹ and P Richet¹

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Abstract References

In Earth and Materials sciences, iron is the most important transition element. Glass and melt properties are strongly affected by iron content and redox state with the consequence that some properties (i.e. viscosity, heat capacity, crystallization...) depend not only on the amounts of Fe²⁺ and Fe³⁺, but also on the coordination state of these ions. In this work we investigate iron redox reactions through XANES experiments at the K-edge of iron. Using a high-temperature heating device, pre-edge of XANES spectra exhibits definite advantages to make in-situ measurements and to determine the evolution of redox state with time, temperature and composition of synthetic silicate melts. In this study, new kinetics measurements are presented for a basalt melt from the 31,000-BC eruption of the Puy de Lemptegy Volcano in France. These measurements have been made between 773 K and at superliquidus temperatures up to 1923 K.

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