Weathering of volcanic tuff rocks caused by moisture expansion
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Moisture expansion in natural building stones is considered one of the most important factors affecting their weathering and deterioration. The processes that may be responsible for the expansion under determinate relative humidity (hygric dilatation) and water-saturated conditions (hydric dilatation) are generally attributed to the presence of swellable clay minerals. In contrast to this assumption, our investigations show that moisture expansion also takes place in volcanic tuff building stones almost free from clay minerals. To provide a deeper understanding of the processes, swelling and deterioration were performed on 14 volcanic tuffs used as important building stones of different ages, compositions and weathering stages from Mexico, Germany and Hungary. The investigations undertaken include extensive chemical, petrophysical and fabric analyses. The samples show a wide range of effective porosity, microporosity, capillary water absorption, moisture expansion, and CEC values. High moisture expansion does not seem to depend on clay mineral content alone. We also observed that there is no significant effect on dilatation if clay minerals are present but only form a thin coat on the outer shell of bigger pores. Moreover, we identified a correlation between microporosity, average pore radius and moisture expansion. The investigations highlight the fact that moisture expansion cannot only be attributed to swellable clay minerals, and suggest that the presence and accumulation of micropores and their average radius and distribution play an important role for non-clay associated swelling intensity, which can most probably be attributed to the disjoining pressure. © 2012 The Author(s).
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Clay mineralogy; Disjoining pressure; Hydric expansion; Hygric expansion; Microporosity; Weathering of tuffs Capillary water absorption; Clay mineralogy; Disjoining pressures; Effective porosity; Fabric analysis; Mineral content; Moisture expansion; Natural building stones; Building materials; Chemical analysis; Clay minerals; Crystallography; Deterioration; Microporosity; Mineralogy; Minerals; Moisture; Volcanic rocks; Volcanoes; Weathering; Swelling; clay mineral; moisture flux; porosity; relative humidity; swelling; tuff; volcanic rock; weathering; Germany; Hungary; Mexico [Mexico (NTN)]; Mexico [North America]
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