Towards an integrated assessment strategy for masonry structures
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- Опубліковано 19 гру 2024
- Due to the new sustainability challenges for our cities, the assessment of existing masonry structures is becoming one of the most important tasks for engineers who need to preserve historical heritage, renovate existing infrastructures, and refurbish existing buildings to promote their reuse.
Despite the relevance of structural assessment, often analysis methods require input parameters that cannot be easily determined on-site. One example can be the use of nonlinear finite element analysis based on continuum damage models. These models usually require the determination of elastic, strength and toughness properties of masonry under tension, compression, and shear loading for at least two orthogonal directions (perpendicular and parallel to bed joints). The characterisation of the entire set of properties on-site is currently not possible with limited invasiveness to the structure. This is especially crucial for masonry considering that the fabrication process, workmanship, and aging phenomena result in a large variety of masonry types worldwide and variability of masonry properties even within a single building. Consequently, the uncertainty in structural assessment increases when mechanical characterisation is not performed or provided limited information.
To tackle this problem, Dr. Esposito’s team aims at developing an integrated structural assessment strategy considering an analysis method based on a limited number of input parameters, which can be obtained with minor invasive in-situ testing methods.
In this presentation, Dr. Esposito will show the past and current work of my team for the development of this integrated assessment strategy. From the point of view of material characterisation strategy, recent developments and challenges on the minor destructive core testing method and the creation of a national database of properties of typical Dutch masonry buildings will be discussed. From the point of view of developing a new analysis method based on limited input parameters, preliminary results of an analytical-based multiscale model and challenges related to the identification of independent input parameters are presented.
