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Innovative and Suistainable FRLM Composite for the Seismic and Energetic Upgrade of Masonry Buildings
PUBLISHED July 24, 2024 (DOI: https://doi.org/10.54985/peeref.2407p9921790)
NOT PEER REVIEWED
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Authors
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Dora Pugliese1 , Valerio Alecci2 , Gianfranco Stipo2 , Mario De Stefano2 , Antonio Nanni1
- University of Miami
- University of Florence
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Conference / event
- ACI Concrete Convention, November 2023 (Boston, MA, United States)
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Poster summary
- Large part of historical buildings is made up of masonry structures, which are often susceptible to seismic activities and have high energy consumption. An effective way to renovate these buildings involves using design strategies that enhance both structural safety and energy efficiency. This can be achieved through non-invasive techniques that improve the building envelope while maintaining the architectural style, environmental compatibility, and occupant comfort. Combining enhancements to the building envelope with non-invasive methods can preserve architectural character, sustainability, and comfort, alongside improved structural safety and energy efficiency. While there are many studies on reducing seismic vulnerability and improving thermal performance separately, it is crucial to integrate these objectives into a single intervention to ensure seismic safety and energy efficiency, while also considering environmental and economic sustainability.
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Keywords
- Renovation of masonry buldings, FRLM (Fabric Reinforced Lime Matrix), Thermo-dynamic simulations, Mechanical properties evalaution, Structural safety and energy efficiency
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Research areas
- Civil Engineering, Architecture, Design and Urban Planning
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References
- No data provided
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Funding
- No data provided
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Supplemental files
- No data provided
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Additional information
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- Competing interests
- No competing interests were disclosed.
- Data availability statement
- The datasets generated during and / or analyzed during the current study are available from the corresponding author on reasonable request.
- Creative Commons license
- Copyright © 2024 Pugliese et al. This is an open access work distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
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Pugliese, D., Alecci, V., Stipo, G., De Stefano, M., Nanni, A. Innovative and Suistainable FRLM Composite for the Seismic and Energetic Upgrade of Masonry Buildings [not peer reviewed]. Peeref 2024 (poster).
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