A comparative study of the thermal behaviour of length-fast chalcedony, length-slow chalcedony (quartzine) and moganite

Abstract

The thermal behaviour of silica rocks upon heat treatment is dependent on the constituent minerals and petrographic texture types. These constituents can be shown to be mainly quartz in the form of two types of chalcedony (Length-fast (LF) chalcedony and Length-slow (LS) chalcedony, the latter also being termed quartzine) and moganite. Even though the thermal behaviour of LF- chalcedony is well understood, major uncertainties persist concerning the high-temperature behaviour of LS-chalce- dony and moganite. We present here a comparative study of these three constituents of common silica rocks. Our results show that the chemical reaction is the same in all three, Si-OH ? HO-Si ? Si-O-Si ? H2O, but that the reaction kinetics and activation temperatures are very dif- ferent. LS-chalcedony begins to react from 200 C upwards, that is at temperatures 50 C below the ones observed in LF-chalcedony, and shows the fastest reaction kinetics of this 'water' loss. Chemically bound water (SiOH) in moganite is more stable at high temperatures and no specific activation temperature is necessary for trig- gering the temperature-induced 'water' loss. Moganite is also found to act as a stabilizer in silica rocks preventing them from temperature-induced fracturing. These findings have implications for the study of potential heat treatment temperatures of silica rocks (in industry and heritage studies), but they also shed light on the different structures of SiO2 minerals and the role of OH impurities therein.