Earthquakes induced liquefaction is one of the most significant causes of damage to structures during an earthquake. Ground improvement is currently considered to be the most appropriate mitigation tecnique to prevent soil liquefaction. This work is aimed to compare different liquefaction mitigation techniques for protection of small-to-medium sized ‘critical’ infrastructures and low-rise buildings. The effectiveness of some techniques (densification, addition of fine contents, induced partial saturation and drainage systems) was verified via experimental evidences coming from laboratory testing, physical modelling and liquefaction field prototype tests. Starting from the calibration of advanced soil constitutive models, numerical modelling activities were extended to the back-analysis of centrifuge tests and field prototype tests, up to a parametric study with different geometrical layouts.
Experimental evidences of the effectiveness of some liquefaction mitigation measures / Bilotta, Emilio; Chiaradonna, Anna; Fasano, Gianluca; Flora, Alessandro; Mele, Lucia; Nappa, Valeria; Lirer, Stefania; Fioravante, Vincenzo. - (2019), pp. 682-689. (Intervento presentato al convegno IABSE Symposium 2019 Guimarães Towards a Resilient Built Environment - Risk and Asset Management March 27-29, 2019, Guimarães, Portugal tenutosi a Guimarães, Portugal nel 27-29 marzo).
Experimental evidences of the effectiveness of some liquefaction mitigation measures
Emilio Bilotta
;Anna Chiaradonna;Gianluca Fasano;Alessandro Flora;Lucia Mele;Valeria Nappa;Stefania Lirer;
2019
Abstract
Earthquakes induced liquefaction is one of the most significant causes of damage to structures during an earthquake. Ground improvement is currently considered to be the most appropriate mitigation tecnique to prevent soil liquefaction. This work is aimed to compare different liquefaction mitigation techniques for protection of small-to-medium sized ‘critical’ infrastructures and low-rise buildings. The effectiveness of some techniques (densification, addition of fine contents, induced partial saturation and drainage systems) was verified via experimental evidences coming from laboratory testing, physical modelling and liquefaction field prototype tests. Starting from the calibration of advanced soil constitutive models, numerical modelling activities were extended to the back-analysis of centrifuge tests and field prototype tests, up to a parametric study with different geometrical layouts.| File | Dimensione | Formato | |
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