Influence of pH and temperature on the early stage of mica alteration |
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| Authors: | K Pachana P Zuddas P Censi |
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| Institution: | 1. Institut de Génie de l’Environnement Ecodéveloppement & Département de Sciences de la Terre UMR 5125, Université Claude Bernard Lyon1, France;2. Department of Chemistry, Burapha University, 169 Long-Hard Bangsaen Road, Chonburi 20131, Thailand;3. Università di Palermo, Dipartimento DISTeM, via Archirafi 22, 90123 Palermo, Italy |
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| Abstract: | Mineral dissolution and precipitation reactions actively participate in controlling fluid chemistry during water–rock interaction. In this study, the changes in the biotite and muscovite basal surface nano-morphology were evaluated during interaction with fluids of different pH (pH = 1.1, 3.3 and 5.7) at different temperatures (T = 25°, 120°, and 200 °C). Results show that at the nanometre scale resolution of the atomic force microscope (AFM), dissolution generates etch pits with a stair-shaped pattern over the (0 0 1) surface. The flux of dissolved elements decreases when pH increases. However, at pH 5.7, a change was found in the flux after 42 h of reaction when abundant gibbsite and kaolinite coat the dissolving mineral surface. This phenomenon was widely observed at edges of the etch pits by AFM. It was also found that an increase in temperature produces an enhancement in the elemental flux in both micas. Dissolution regime changes after less than one day of interaction at high temperature because of abundant coating formation over the etch pits and edges. The results demonstrate the key role of nanometre size neogenic phases in the control of elemental flux from mica surfaces to solution. The formation of nanometre size coatings, blocking the sites active for dissolution, appears to control the alteration of phyllosilicates even at the early stage of the interaction. |
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