Print Email Facebook Twitter Characterisation of bacterial decay effects on wooden foundation piles across various historical periods Title Characterisation of bacterial decay effects on wooden foundation piles across various historical periods Author Mirra, M. (TU Delft Bio-based Structures & Materials) Pagella, G. (TU Delft Bio-based Structures & Materials) Lee, Michael (Student TU Delft) Gard, W.F. (TU Delft Bio-based Structures & Materials) Ravenshorst, G.J.P. (TU Delft Bio-based Structures & Materials) van de Kuilen, J.W.G. (TU Delft Bio-based Structures & Materials; Technische Universität München) Date 2024 Abstract In the historic city centre of Amsterdam (NL), the predominant foundation system is comprised of wooden piles. Due to their placement below the water table, these foundations are susceptible to bacterial decay. This study aims to investigate and compare various methods for characterizing decay patterns within the cross sections of piles retrieved from two bridges in Amsterdam. The examined piles span different construction years: three originate from 1727, four from 1886, and two from 1922. Following extraction, the piles were transported to TU Delft Stevin II Laboratory, where they underwent further subdivision into three segments, each representing the head, middle, and tip, resulting in a total of 27 segments. The effects of bacterial decay were characterised by performing micro-drilling measurements, small-scale material and compressive tests on prismatic samples extracted from the segments' cross sections, computed tomography scans, and light microscopy observations. Microscopic examination revealed severe degradation in all segments dating back to 1727, extending 20–50 mm from their surface. This outcome was also confirmed by the other adopted methods: the corresponding prisms had large moisture contents and poor mechanical properties, while low basic densities and drilling amplitudes were obtained from CT scans and micro-drilling measurements, respectively. On the contrary, the internal sections of the 1727 segments exhibited no evidence of decay and demonstrated properties consistent with those observed in sound segments from 1886 and 1922. Finally, the observed gradients of density, strength, and stiffness were well correlated with micro-drilling measurements, which can therefore be reliably used as on-site assessment method to reconstruct the properties of the piles. Subject Bacterial decayConservation of architectural heritageMicro-drilling techniquesService life modellingWooden foundation piles To reference this document use: http://resolver.tudelft.nl/uuid:96f83610-4736-4d77-9be1-1b617a7ac7bc DOI https://doi.org/10.1016/j.conbuildmat.2024.135670 ISSN 0950-0618 Source Construction and Building Materials, 421 Part of collection Institutional Repository Document type journal article Rights © 2024 M. Mirra, G. Pagella, Michael Lee, W.F. Gard, G.J.P. Ravenshorst, J.W.G. van de Kuilen Files PDF 1-s2.0-S0950061824008110-main.pdf 14.2 MB Close viewer /islandora/object/uuid:96f83610-4736-4d77-9be1-1b617a7ac7bc/datastream/OBJ/view