Surface temperature differences between minerals in crystalline rocks: Implications for granular disaggregation of granites through thermal fatigue

Thermal expansion differences between minerals within rocks under insolation have previously been assumed to drive breakdown by means of granular disaggregation. However, there have been no definitive demonstrations of the efficacy of this weathering mechanism. Different surface temperatures between...

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Veröffentlicht in:	Geomorphology (Amsterdam, Netherlands) Netherlands), 2006-08, Vol.78 (3), p.236-249
Hauptverfasser:	Gómez-Heras, Miguel, Smith, Bernard J., Fort, Rafael
Format:	Artikel
Sprache:	eng
Schlagworte:	Bgi / Prodig Earth sciences Earth, ocean, space Exact sciences and technology Geomorphology Geomorphology, landform evolution Granitic rocks Insolation Marine and continental quaternary Physical geography Rock temperature Surficial geology Thermal stress Weathering
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container_title	Geomorphology (Amsterdam, Netherlands)
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creator	Gómez-Heras, Miguel Smith, Bernard J. Fort, Rafael
description	Thermal expansion differences between minerals within rocks under insolation have previously been assumed to drive breakdown by means of granular disaggregation. However, there have been no definitive demonstrations of the efficacy of this weathering mechanism. Different surface temperatures between minerals should magnify thermal expansion differences, and thus subject adjacent minerals to repeated stresses that might cause breakdown through fatigue failure. This work confirms the existence of surface temperature differences between minerals in granitic rocks under simulated short-term temperature fluctuations so as to discriminate their potential for initiating granular disaggregation. The influence of colour, as a surrogate for albedo, and crystal size, as a function of thermal mass are specifically identified because of their ease of quantification. Four rock types with a range of these properties were examined, and subjected to repeated short-term temperature cycles by radiative heating and cooling under laboratory conditions. Results show that while albedo is the main control for overall and individual maximum temperatures, crystal size is the main factor controlling higher temperature differences between minerals. Thus, stones with large differences of mineral sizes can undergo magnified stresses due to thermal expansion differences.
doi_str_mv	10.1016/j.geomorph.2005.12.013
format	Article
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However, there have been no definitive demonstrations of the efficacy of this weathering mechanism. Different surface temperatures between minerals should magnify thermal expansion differences, and thus subject adjacent minerals to repeated stresses that might cause breakdown through fatigue failure. This work confirms the existence of surface temperature differences between minerals in granitic rocks under simulated short-term temperature fluctuations so as to discriminate their potential for initiating granular disaggregation. The influence of colour, as a surrogate for albedo, and crystal size, as a function of thermal mass are specifically identified because of their ease of quantification. Four rock types with a range of these properties were examined, and subjected to repeated short-term temperature cycles by radiative heating and cooling under laboratory conditions. 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source	Elsevier ScienceDirect Journals
subjects	Bgi / Prodig Earth sciences Earth, ocean, space Exact sciences and technology Geomorphology Geomorphology, landform evolution Granitic rocks Insolation Marine and continental quaternary Physical geography Rock temperature Surficial geology Thermal stress Weathering
title	Surface temperature differences between minerals in crystalline rocks: Implications for granular disaggregation of granites through thermal fatigue
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