Universidad Complutense de Madrid
E-Prints Complutense

Thermal stress-induced microcracking in building granite

Impacto

Downloads

Downloads per month over past year

Freire-Lista, D. M. and Fort González, Rafael and Varas-Muriel, María Josefa (2016) Thermal stress-induced microcracking in building granite. Engineering geology, 206 . pp. 83-99. ISSN 0013-7952

[img] PDF
Restringido a Repository staff only

2MB

Official URL: https://www.sciencedirect.com/journal/engineering-geology/vol/206/suppl/C




Abstract

Microcracking induced by wide fluctuations in temperature affects granite quality and durability, making the stone more vulnerable to decay. Determining the extent of that effect is not always straightforward, however, given the excellent durability of these materials.Four types of construction granite quarried in the region of Madrid, Spain, and frequently used in both the built heritage and in de novo construction (Alpedrete, Cadalso de los Vidrios, Colmenar Viejo and Zarzalejo) were exposed to 42 thermal cycles (105-20 °C; UNE-EN, 14066, 2003). Petrographic and petrophysical properties were analysed using both destructive and non-destructive techniques. Microcracking generated in the granite stones by 42 thermal cycles had barely any impact on their petrophysical properties, which are the parameters normally assessed to establish material quality and durability. Their petrographic properties, which are not generally assessed in this type of studies, were affected, however. This study contends that petrographic analysis is needed to objectively quantify the actual quality and durability of the most highly resistant materials when petrophysical studies are inconclusive. Petrographic and fluorescence microscopy, along with fractography, are among the most prominent techniques for petrographic exploration. Thanks to the deployment of these techniques, mineral microcracking could be monitored throughout the present tests conducted.The microscopic findings revealed substantial micro-textural and microstructural change in and around the granite minerals, which play a prominent role in decay. The findings showed that pre-existing microcracks coalesced and generated further microcracking as decay progressed. Microcracking was most intense in Zarzalejo granite due to its textural characteristics determined by its high feldspar content. Microscopic observation revealed that the microstructure of feldspar minerals, with their crystallographic anisotropies and secondary mineral phases, favoured microcrack development. Zarzalejo granite exhibited lower quality and durability than Colmenar Viejo and Cadalso de los Vidrios granites, which were more resistant to heat treatment.


Item Type:Article
Uncontrolled Keywords:Granite, Microcracks, Petrography, Petrophysics, Decay
Subjects:Sciences > Geology > Petrology
ID Code:57414
Deposited On:18 Oct 2019 16:57
Last Modified:21 Oct 2019 07:47

Origin of downloads

Repository Staff Only: item control page