Universidad Complutense de Madrid
E-Prints Complutense

Ghaleh-khargushi rhyodacite and Gorid andesite from Iran: characterization, uses, and durability

Impacto

Downloads

Downloads per month over past year

Zalooli, Ahmad and Freire Lista, David Martín and Khamehchiyan, Mashalah and Nikudel, Mohammad Reza and Fort, Rafael and Ghasemi, Shahram (2018) Ghaleh-khargushi rhyodacite and Gorid andesite from Iran: characterization, uses, and durability. Environmental Earth Sciences, 77 (315). ISSN ISSN: 1866-6280, online ISSN: 1866-6299

[img] PDF
Restringido a Repository staff only

3MB

Official URL: https://link.springer.com/article/10.1007/s12665-018-7485-4


URLURL Type
https://link.springer.com/Publisher


Abstract

Durability of building stones is an important issue in sustainable development. Crystallization of soluble salts is recognized as one of the most destructive weathering agents of building stones. For this reason, durability of Ghaleh-khargushi rhyodacite and Gorid andesite from Iran was investigated against sodium sulfate crystallization aging test. Petrographic and physico-mechanical properties and pore size distribution of these stones were examined before and after the aging test. The characteristics of the microcracks were quantified with fluorescence-impregnated thin sections. Durability and physico-mechanical characteristics of Ghaleh-khargushi rhyodacite are mainly influenced by preferentially oriented preexisting microcracks. Stress induced by salt crystallization led to the widening of preexisting microcracks in Ghaleh-khargushi rhyodacite, as confirmed by the pore size distributions before and after the aging test. The preexisting microcracks of Gorid andesite were attributed to the mechanical stress induced by contraction of lava during cooling. The number of transcrystalline microcracks was significantly increased after the aging test. The degree of plagioclase microcracking was proportional to its size. Durability of the studied stones depends on initial physico-mechanical properties, pore size distribution, and orientation of microcracks. Initial effective porosity is found to be a good indicator of the stones’ durability. Salt crystallization resulted in an increase in the effective porosity with a parallel decrease in the wave velocities. Surface microroughness parameters increased with the development of salt crystallization-induced microcracking. Gorid andesite showed higher quality and durability than Ghaleh-khargushi rhyodacite.


Item Type:Article
Uncontrolled Keywords:Ghaleh-khargushi rhyodacite, Gorid andesite, Building stone, Salt crystallization, Physico-mechanical properties Microcracks
Subjects:Sciences > Geology > Petrology
ID Code:47914
Deposited On:04 Jun 2018 18:08
Last Modified:05 Jun 2018 08:28

Origin of downloads

Repository Staff Only: item control page