Abstract
This study investigated the mineralogical, chemical, physical, mechanical, durability–hygrothermal, thermal shock properties, and economic aspects of the Kandira stone, one of the well-known natural building stones, commonly used in many historical structures in the Marmara and Thrace regions. Especially, it has been preferred to Malta stone in historical structures in Istanbul due to economic reasons at the beginning of the 1900s. A similar appearance and lithology with Malta stone and closeness of the Kandıra stone to İstanbul made it attractive to be used as natural building stone in historical monuments and new structures. The mean physico-mechanical properties of Kandira stone yielded 2.24 g/cm3 apparent density, 2.72 specific gravity, 19.21% total porosity, 5.8% water absorption by weight, 48 MPa compressive strength, 11.4 MPa bending strength. In terms of durability properties, Kandira stone has high resistance to aging by CaCl salt mist and no or low resistance to SO2 aging in a humid environment. Also, the freeze–thaw test of Kandira stone yielded an exceptionally low mass loss (0.11%) indicating that the stone is resistant to freeze–thaw effect. Thermal shock tests indicated that Kandira stone is mainly resistant to thermal shock cycles. Economically, the calculated probable reserve of Kandira stone resulted in 40.8 × 106 tons of material and the potential economic value based on the probable reserve is calculated around 54.672 × 109 TL (approximately €7.2B). In conclusion, this study defined the petrographic, geomechanical, durability–hygrothermal and thermal shock properties essential for the use of Kandira stone as building stone and restoration material.
Original language | English |
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Article number | 130 |
Journal | Environmental Earth Sciences |
Volume | 80 |
Issue number | 4 |
DOIs | |
Publication status | Published - Feb 2021 |
Bibliographical note
Publisher Copyright:© 2021, The Author(s), under exclusive licence to Springer-Verlag GmbH, DE part of Springer Nature.
Funding
The authors would like to thank to Kocaeli University BAP Coordination Unit for providing financial support to the 2019/020 BAP project, which provided the basic data essential for the preparation of this article. Also, a sincere gratitude is extended to AKU-NSL and Gunay Acıkgoz for his assistance during the fieldwork. The authors would like to thank to Kocaeli University BAP Coordination Unit for providing financial support to the 2019/020 BAP project, which provided the basic data essential for the preparation of this article. Also, a sincere gratitude is extended to AKU-NSL and Gunay Ac?kgoz for his assistance during the fieldwork. The study was supported by the Kocaeli University Scientific Research Projects (BAP) Coordination Unit through a research project (BAP project #2019/020).
Funders | Funder number |
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AKU-NSL | |
Kocaeli Üniversitesi | 2019/020 |
Keywords
- Building stone
- Historical structures
- Kandira stone
- Limestone