Seismic Rehabilitation Techniques for Conserving and Managing Cultural Heritage of old City Fortress in Novi Pazar
Abstract
:1. Introduction
2. Research Methods and Study Area
2.1. Methodology
2.2. Study Area
- Authenticity of materials—the techniques used to maintain material heritage speak of the level of civilization and human ability to recognize the original material and installation procedures and to compare them with the location of the building, as well as its aesthetic aspects.
- Authenticity of form—a work of art is the result of human work through the creative aspect of authenticity. In addition, it testifies to the duration of that work, its maintenance, and changes, which should also be authentic.
- The authenticity of goals and ultimate intentions is achieved by preserving the artistic level that determines the work of art. In addition, there is also the authenticity of the crafts, the authenticity of the place and the way of installation, as well as the authenticity in relation to the surroundings.
2.3. New Methods of Preserving Cultural Heritage
- The RePAIR (Reconstructing the Past: Artificial Intelligence and Robotics meet Cultural Heritage) project: All artifact fragments are scanned using high-tech computers, which use machine learning algorithms to predict their original configuration.
- Scan4Reco (Multimodal scanning of cultural heritage assets for their multilayered digitization and preventive conservation via spatiotemporal 4D reconstruction and 3Dprinting) uses in-depth scanning cameras to create a high-resolution 3D replica of an artifact to transfer it into digital files.
- Laser scanning and photogrammetry are additional technologies that play a key role in the increased progress of digitizing cultural heritage [18].
3. Property and Cultural Heritage Information
3.1. Building General Information—Identification of the Building (New versus Old State)
3.2. Analysis of the Part of the Facility
3.2.1. Bastion–Tabias
3.2.2. Tower Dzephana
3.2.3. Gunpowder Depot—Baruthana
3.2.4. Tower Motrilja (Watchtower)
3.3. Preservation, Protection Information, Archeological Research at the City Fortress
3.3.1. Remains of the Dungeon—Zindan
3.3.2. Remains of the Tower Dzephana
3.3.3. The Reconstruction of the Tower Motrilja
3.3.4. Gunpowder Depot—Baruthana
3.3.5. The City Fortress Foundations
4. The Property of the Historical Masonry—Constructions in Seismic Zones
4.1. General Aseismic Characteristics of the Historical Masonry Buildings
4.2. Construction Elements and Construction Techniques at the City Fortress
- Novi Pazar sandstone: it is formed by binding sand, using natural binding materials. The color of this natural stone depends on many factors, primarily on the color of the binder used to create the stone: in yellow and brown, red, gray, or green shades. For this reason, the use of this stone was very diverse. Today, some of its types are also used when making foundations, and it is very resistant to temperature differences, especially when it comes to high temperatures, so it is often used to cover fireplaces with this stone, or exterior walls, and the like.
- Trachyte is an architectural-building stone that has been used for more than 1000 years. It was built into the church of Holy apostles Peter and Paul (8th century—perhaps older), used for the minaret of the Altun-Alem mosque from the 16th century, in Djurdjevi Stupovi, and on numerous churches and mosques in the wider area of Novi Pazar, as well as on the city fortress. (The name “trachyte” is the result of an error in a laboratory determination fifty years ago, formed from andesitic lava, of volcanic origin, formed several million years ago.
- Andesite appears mainly in the form of large masses (outflows), columnar, or bank-like secretions.
- River pebbles are also widely represented in the area of Novi Pazar, in different colors and granulations.
5. Sustainable Strengthening and Seismic Improvement Techniques
5.1. Sustainable Repair and New Restoration Techniques; Proposal of Technical Measures and New Materials for Enabling Stability and Improving Seismic Resistance
- Foundation consolidation,
- Connection of walls and floor structures,
- Strengthening the walls by grouting and/or injecting cracks,
- Reinforcement of masonry vaults,
- Renovation of existing floor structures or their replacement with new and solid structural elements,
- Reconstruction of the wooden roof structure, and
- Repair and strengthening of non-constructive elements.
- injection mortars
- composite materials
- reinforced steel
- connecting mezzanine constructions and surrounding walls with various types of connections
- strengthening of floor beams
- Interventions to improve connections
- Interventions to increase wall strength
- Interventions to reduce the flexibility of floors and their consolidation
- Repairs include operations that do not include the load-bearing structure, with the aim of improving the comfort of using the facility and repairing damage to non-load-bearing elements.
- Reconstruction includes the restoration of the supporting system of buildings to the level that existed before the damage occurred.
- Reinforcements include strengthening of the supporting structure (damaged or undamaged) to the level of the desired safety of the object.
5.2. The New Materials
- provides a significant, identifiable advantage;
- their use has a solid scientific basis;
- their use is supported by experience.
5.3. Proposed Reconsruction Measures
- strengthening by walling up individual walls in the construction system;
- introducing new walls into the basic construction system;
- connecting the construction of the walls at the level of the inter-floor constructions.
- Repair of observed cracks and wall damage (filling with mortar and FRP protection)
- Rehabilitation and stabilization of the roof structure and roof covering
- Connecting the floor structure and the surrounding walls
- Strengthening walls (grouting and filling cracks)
- Connecting the walls (the estimated value of the work performed at this level is 90–95 Euros/m2 [26]).
5.4. Structural Damage Restoration Techniques
- non-invasive technique
- invasive technique
5.4.1. Non-Invasive Technique on the Example of the City Fortress Walls and Tower Motrilja
5.4.2. Invasive Techniques on the Example of the Tower Dzephana
6. Space Activation
7. Conclusions
Author Contributions
Funding
Institutional Review Board Statement
Data Availability Statement
Acknowledgments
Conflicts of Interest
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Aleksić, J.; Zećirović, L.; Dragović, D.; Slavković, B.; Suljević, J.; Božović, J. Seismic Rehabilitation Techniques for Conserving and Managing Cultural Heritage of old City Fortress in Novi Pazar. Appl. Sci. 2022, 12, 12018. https://doi.org/10.3390/app122312018
Aleksić J, Zećirović L, Dragović D, Slavković B, Suljević J, Božović J. Seismic Rehabilitation Techniques for Conserving and Managing Cultural Heritage of old City Fortress in Novi Pazar. Applied Sciences. 2022; 12(23):12018. https://doi.org/10.3390/app122312018
Chicago/Turabian StyleAleksić, Julija, Lejla Zećirović, Danilo Dragović, Branko Slavković, Jasmin Suljević, and Jelena Božović. 2022. "Seismic Rehabilitation Techniques for Conserving and Managing Cultural Heritage of old City Fortress in Novi Pazar" Applied Sciences 12, no. 23: 12018. https://doi.org/10.3390/app122312018
APA StyleAleksić, J., Zećirović, L., Dragović, D., Slavković, B., Suljević, J., & Božović, J. (2022). Seismic Rehabilitation Techniques for Conserving and Managing Cultural Heritage of old City Fortress in Novi Pazar. Applied Sciences, 12(23), 12018. https://doi.org/10.3390/app122312018