Abstract
AbstractThis study assesses the static stability of the artificial Sabereebi Cave Monastery southeast of Georgia's capital, Tbilisi. The cliff into which these Georgian-Orthodox caverns, chapels, and churches were carved consists of a five-layered sequence of weak sedimentary rock—all of which bear a considerable failure potential and, consequently, pose the challenge of preservation to geologists, engineers, and archaeologists. In the first part of this study, we present a strategy to process point cloud data from drone photogrammetry as well as from laser scanners acquired in- and outside the caves into high-resolution CAD objects that can be used for numerical modeling ranging from macro- to micro-scale. In the second part, we explore four distinct series of static elasto-plastic finite element stability models featuring different levels of detail, each of which focuses on specific geomechanical scenarios such as classic landsliding due to overburden, deformation of architectural features as a result of stress concentration, material response to weathering, and pillar failure due to vertical load. With this bipartite approach, the study serves as a comprehensive 3D stability assessment of the Sabereebi Cave Monastery on the one hand; on the other hand, the established procedure should serve as a pilot scheme, which could be adapted to different sites in the future combining non-invasive and relatively cost-efficient assessment methods, data processing and hazard estimation.
Funder
National Agency for Cultural Heritage Preservation of Georgia
Publisher
Springer Science and Business Media LLC
Subject
Geology,Geotechnical Engineering and Engineering Geology,Civil and Structural Engineering
Reference65 articles.
1. Abell AB, Willis KL, Lange DA (1999) Mercury intrusion porosimetry and image analysis of cement-based materials. J Colloid Interface Sci 211(1):39–44. https://doi.org/10.1006/jcis.1998.5986
2. Agisoft LLC, 2021. Agisoft metashape user manual: professional edition. Agisoft LLC, St. Petersburg, Russia, ver. 1.7. https://www.agisoft.com/pdf/metashape-pro_1_7_en.pdf. Accessed 26 Sept 2021
3. Basilaia G, Elasvhil M, Vacheishvili N, Chkhaidze D, Kvavadze D, (2016) Concept of complex environmental monitoring network—Vardzia rock cut city case study. In: Proceedings of the 16th international multidisciplinary scientific geoconference, Albena, Bulgaria, 28 June–6 July 2016, Surveying, Geology and Mining, Ecology and Management, Sofia, Bulgaria, 1st ed., p 427–434. https://doi.org/10.5593/SGEM2016/B13/S05.054
4. Ben-Israel A (1966) A Newton–Raphson method for the solution of systems of equations. J Math Anal Appl 15(2):243–252. https://doi.org/10.1016/0022-247X(66)90115-6
5. Bergamini L (2020) Tecniche di classificazione di siltiti, arenarie e calcareniti debolmente cementate. Bachelor thesis, Department of Earth and Environmental Sciences, University of Milano Bicocca, Italy (in Italian)
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