@article{García-Guinea_Lombardero_Roberts_Taboada_Peto_1998, title={Mineralogy and microstructure of roofing slate: thermo-optical behaviour and fissility}, volume={48}, url={https://materconstrucc.revistas.csic.es/index.php/materconstrucc/article/view/470}, DOI={10.3989/mc.1998.v48.i251.470}, abstractNote={The mineralogy and microstructure, which affect the slaty cleavage, are linked with the strong preferred orientation of phyllosilicates and this enables the rock to be split into large, thin, flat sheets. Roofing slate samples with different commercial fissilities have been analyzed by radioluminescence (RL), thermoluminescence (3DTL), by X-ray diffraction (XRD), by scanning electron microscopy (SEM) using the back-scattered mode (BSEI) and by electron microprobe (EMP). They are made up of white micas, chlorite, quartz, detrital feldspars, ilmenite, pyrite, rutile apatite and tourmaline. Texturally, all consist of silt-sized clasts of detrital quartz, feldspars, chlorite-mica stacks, muscovite and ilmenite in a recrystalline, lepidoblastic matrix of white micas and chlorite with quartz lenses, all showing a very strong preferred orientation. The luminescence emission centers are a low broad blue band around the 400 nm spectra positions linked with alkali losses and formation of [AlO<sub>4</sub>]º defects; a peak at 473 nm interpreted as a the first thermal step (150-300ºC) of a non-isothermal dehydroxylation of the slate phyllosilicates; and a 568 nm peak which agrees with Mn<sup>2+</sup> point defects in aluminosilicate lattices. The studies on the slaty cleavage could be significant because Spain is the largest producer of roofing slate tiles in the world (87% of world production).}, number={251}, journal={Materiales de Construcción}, author={García-Guinea, J. and Lombardero, M. and Roberts, B. and Taboada, J. and Peto, A.}, year={1998}, month={Sep.}, pages={37–48} }