Your search keyword '"Thermal shock"' showing total 3 results

1. Effect of Artificial Freeze/Thaw and Thermal Shock Ageing, Combined or Not with Salt Crystallisation on the Colour of Zamora Building Stones (Spain).

Author

García-Talegón, Jacinta, Iñigo, Adolfo Carlos, Sepúlveda, Rosa, and Azofra, Eduardo

Subjects

STONE, THERMAL shock, CRYSTALLIZATION, BUILDING stones, THAWING, FREEZE-thaw cycles, URANIUM-lead dating

Abstract

After subjecting Zamora building stones to accelerated ageing tests, colour changes were studied, namely: (a) freezing/thawing and thermal shock (gelifraction and thermoclasty), and (b) combination of freezing/thawing plus thermal shock and salt crystallisation (sulphates or phosphates) (gelifraction, thermoclasty and haloclasty). Zamora building stones are silicified conglomerates (silcretes) from the Cretaceous that show marked colour changes due to the remobilisation of iron oxyhydroxides. In this work, four varieties were: white stone; ochreous stone; white and red stone; and purple stone Their micromorphological characterization (skeleton, weathering plasma and porosity/cutan) is formed of grains and fragments of quartz and quartzite as well as by accesory minerals muscovite and feldspar (more or less altered), and some opaque. Quartz, feldspar and illite/mica were part of the skeleton; kaolinite, iron oxyhydroxides, and CT opal were part of the weathering plasma or cutans; their porosity were 11.7–8.7%. Their chromatic data have been statistically analysed (MANOVA-Biplot). They showed higher variations in ΔE*, ΔL*, Δa* and Δb*on combined freezing/thawing plus thermal shock and sulphates crystallisation leading to rapid alteration of the building stones. Chromatic differences between the other two artificial ageing tests were less evident and were not detected in all samples. The global effect of ageing on the Zamora building stones darkened them and reduced their yellowing. The ochreous stone suffered the least variation and the purple stone the most. This study of the colour by statistical analyse may be of interest for the evaluation and monitoring of stone decay, which is an inexpensive, simple, easy and non-destructive technique. [ABSTRACT FROM AUTHOR]

Published

2022

2. Structural and diagenetic signatures of a very shallow sub-volcanic intrusion into a carbonate platform (Albian, Basque-Cantabrian Basin, Northern Spain).

Author

Pascault, Ophélie, Durlet, Christophe, Teboul, Pierre-Alexandre, Ducoux, Maxime, Girard, Jean-Pierre, Virgone, Aurélien, and Saucède, Thomas

Subjects

*CALCITE, *IGNEOUS intrusions, *THERMAL shock, *URANIUM-lead dating, *CARBONATES, *OXYGEN isotopes, *ATMOSPHERIC methane

Abstract

In several tectonic contexts and especially in hyper-extensive basins, magmatic rise may crosscut shallow marine carbonate series, forming either volcanic systems or only igneous intrusions at various depths. Impacts of these magmatic events on the surrounding carbonate sediments can be significant and are relatively well documented from a geometrical, sedimentological and hydrochemical point of view. Their diagenetic signature (e.g., early diagenetic phases in cases where magma reaches or approaches the surface) still remains poorly investigated. In this paper the authors use a multi-proxy approach combining morpho-structural, diagenetic (cement stratigraphy), geochemical (carbon and oxygen isotope, U–Pb dating) and sedimentological study to investigate the Larrano igneous body contemporaneous with the Urgonian limestones (Early Albian) of the Duranguesado platform, in the well-preserved and hyper-extended Basque-Cantabrian Basin. This investigative work produced several results: the first result, combining morpho-structural and sedimentological data, is the model of a basaltic magma rising along normal faults but stopping about 50 m below the paleo-seafloor; another is the detailed description the "Larrano eogenetic anomaly" that includes cataclastic fractures, dissolution, Fe oxy-hydroxides, ferroan saddle dolomite and magnesian calcite. Such phases form an early diagenetic overprint around the igneous body and testify to the thermal shock and warm seawater circulation occurring at the time of and just after the intrusion. Pre-intrusive and post-intrusive hydrothermally-influenced cements and facies are also recorded and are perfectly calibrated by a detailed cement stratigraphy associated with a layering model of the sedimentary units. The role of magmatic CO 2 contribution is not quantified in the present study. Furthermore, the δ13C signature of various cements, micrites and bioclasts suggests no thermogenic methane contribution, unlike other Albian magmatic intrusions hosted by different lithologies and recorded at various depths below the paleo-seafloor. • For the first time, early diagenetic signature of a very shallow sub-volcanic intrusion in carbonate platform is reported. • The igneous body investigated in this paper intrudes an Urgonian carbonate platform of the Early Albian. • The intrusion is located along a synsedimentary fault of the hyper-extended Basque-Cantabrian Basin. • Structural, early diagenetic and geochemical data indicates an intrusion emplacement just below the paleo-seafloor (~50m). • Pre- & post-intrusive hydrothermal circulations affecting early cements and specific facies related to seeps are reported. [ABSTRACT FROM AUTHOR]

Published

2023

3. Thermal shock and splash effects on burned gypseous soils from the Ebro Basin.

Author

León, J., Seeger, M., Badía, D., Peters, P., and Echeverría, M. T.

Subjects

*THERMAL shock, *ARID regions, *ARID regions ecology, *GROUND cover plants, *RAINFALL simulators, *SOIL erosion prediction, *SOIL structure

Published

2013