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FABIO GABRIELI

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Position

Professore Associato

Structure

Dipartimento di Ingegneria Civile, Edile e Ambientale - ICEA

Address

VIA OGNISSANTI, 39 - PADOVA

Telephone

0498277994

E-mail

fabio.gabrieli@unipd.it

He graduated from the University of Padova in Environmental Engineering in 2005 with a work titled “Numerical and experimental analysis of the mechanical behaviour of the silty soils of the Venetian lagoon”. In 2009 he obtained a PhD in Civil and Environmental Engineering Science at the same university with a thesis titled: “Particle-based approaches for the numerical modelling of the triggering of unstable conditions in a granular soil slope”. He was then a postdoc, research fellow and associate professor since September 2022.
He currently teaches courses of "Geotechnics", "Geotechnics in the defence of the territory", "Soil Improvement" and "Soil Protection Project Work" for students of Civil Engineering, and Environmental Engineering. He is on the doctoral board committee of the PhD School in Civil, Environmental and Architectural Engineering. and he teaches the PhD course of Advanced Soil Mechanics for PhD students of the same school. He has been supervising of over 90 thesis works.
The main research areas concern modeling geotechnical problems, from quasi-static to dynamic, with the Discrete Element Method through the use of the open-source code Yade and the commercial software PFC3D. He worked on the implementation of a micromechanical constitutive model for partially saturated granular materials for the study of the triggering and evolution of collapse phenomena in slopes. These studies continued in both numerical and laboratory fields through validation with small-scale physical models and tomographic measurements performed on samples. In the field of landslide monitoring, he prototyped a low-cost photogrammetric system for the detection of surface displacements through the stereoscopic use of two cameras. He has developed programming skills with Matlab and Python for image analysis (movement detection and tomography analysis).
He currently has active collaborations with the Université Libre de Bruxelles (Prof. P. Lambert), with the Université Grenoble Alpes (prof. B. Chareyre), with the TU Berlin (Prof. F. Rackwitz), with University of Newcastle Australia (Dr. K. Thoeni), with the University of Calgary (Prof. Wan), with Twente University (Prof. S. Luding), the IFSTTAR of Nantes (Dr. R. Artoni), with the Polytechnic of Milan (Prof. F. Calvetti), with the University of Modena (Dr. M. Motta), with the CNR IRPI of Padua (Dr. G. Marcato, Dr. Eng. L. Schenato).
He has participated as a speaker at numerous national and international conferences. The most important were: ICOF 2008, Dundee, UK; Particles 2009, Barcelona, Spain; NUMGE 2010, Trondheim, Norway; DEM Symposium 2012, Birmingham, UK; IS from Micro to Macro 2014, Cambridge, UK; Particles 2017, Hannover, Germany; ISRM 2019, Brazil. He has been invited to talk at specific doctoral and research seminars (Twente University, Holland, 2010; IFSTTAR Nantes, France, 2015; Université Libre de Bruxelles, Belgium, 2015; TU Berlin, Germany, 2017, Grenoble 2018).
He is a member of the Italian Geotechnical Association (AGI), the ISRM, the ISSMGE, the IACMAG and the granular research group (GRG).
Reviewer for the scientific journals: Physics of Fluids, Granular Matter and Geotechnique letters.

Notices

For reaserch topics, thesis proposals and other information click at this link:

http://geotechlab.dicea.unipd.it

The past activities, seminars and field trips are here:

http://geotecnica.dicea.unipd.it/

Office hours

  • Il ricevimento è disponibile tutti i giorni, previo appuntamento via email. Student consulting is available every day upon appointment via email.

Teachings

Publications

Partial list of the last pubblications:

Girardi, V., Yerro, A., Simonini, P., Gabrieli, F., & Ceccato, F. (2023). Wetting induced instabilities in layered slopes: A Material Point Method analysis. Engineering Geology, 313, 106978. https://doi.org/10.1016/j.enggeo.2022.106978

Pol, A., & Gabrieli, F. (2022). Anchor plate bearing capacity in flexible mesh facings. Soils and Foundations, 62(6), 101222. https://doi.org/10.1016/j.sandf.2022.101222

Pol, A., & Gabrieli, F. (2021). Discrete element simulation of wire-mesh retaining systems: An insight into the mechanical behaviour. Computers and Geotechnics, 134, 104076. https://doi.org/10.1016/j.compgeo.2021.104076

Brezzi, L., Gabrieli, F., & Cola, S. (2018). Collapse of granular-cohesive soil mixtures on a horizontal plane. Acta Geotechnica. https://doi.org/10.1007/s11440-018-0725-7

Santomaso, A. C., Volpato, S., & Gabrieli, F. (2018). Collapse and runout of granular columns in pendular state. Physics of Fluids, 30(6), 63301. https://doi.org/10.1063/1.5030779

Gabrieli, F., Pol, A., & Thoeni, K. (2017). Comparison of two DEM strategies for modelling cortical meshes. In 5th International Conference on Particle-Based Methods - Fundamentals and Applications, Particles 2017 (pp. 489–496). International Center for Numerical Methods in Engineering. Retrieved from http://www.eccomas.org/vpage/1/14/2017


Brezzi, L., Cola, S., Gabrieli, F., & Gidoni, G. (2017). Spreading of Kaolin and Sand Mixtures on a Horizontal Plane: Physical Experiments and SPH Numerical Modelling. Procedia Engineering, 175, 197–203. https://doi.org/10.1016/j.proeng.2017.01.008

Zorzi, G., Baeßler, M., & Gabrieli, F. (2017). Influence of Structural Stiffness on Ratcheting Convection Cells of Granular Soil under Cyclic Lateral Loading. Procedia Engineering, 175, 148–156. https://doi.org/10.1016/j.proeng.2017.01.046

Wang, J.-P., Gallo, E., François, B., Gabrieli, F., & Lambert, P. (2017). Capillary force and rupture of funicular liquid bridges between three spherical bodies. Powder Technology, 305, 89–98. https://doi.org/10.1016/j.powtec.2016.09.060

Zorzi, G., Kirsch, F., Gabrieli, F., & Rackwitz, F. (2017). Long-term cyclic triaxial tests with DEM simulations. In 5th International Conference on Particle-Based Methods - Fundamentals and Applications, PARTICLES 2017 (pp. 273–284). International Center for Numerical Methods in Engineering. Retrieved from http://www.eccomas.org/vpage/1/14/2017

Zorzi, G., Artoni, R., & Gabrieli, F. (2017). Experiments and DEM Simulations of Granular Ratcheting. EPJ Web of Conferences, 140, 137–143. https://doi.org/10.1038/25931

Gabrieli, F., Corain, L., & Vettore, L. (2016). A low-cost landslide displacement activity assessment from time-lapse photogrammetry and rainfall data: Application to the Tessina landslide site. Geomorphology, 269, 56–74. https://doi.org/10.1016/j.geomorph.2016.06.030

Volpato, S., Gabrieli, F., & Santomaso, A. C. (2016). Dynamics of wet granular materials in the pendular state. In Book of abstracts of the International Congress on Particle Technology - Partec 2016.

Gabrieli, F., & Ceccato, F. (2016). Impact of Dry Granular Flows on a Rigid Wall: Discrete and Continuum Approach. In Procedia Engineering (Vol. 158, pp. 152–157). Elsevier Ltd. https://doi.org/10.1016/j.proeng.2016.08.421

Cola, S., Gabrieli, F., Marcato, G., Pasuto, A., & Simonini, P. (2016). Evolutionary behaviour of the Tessina landslide. Rivista Italiana Di Geotecnica, 50(1).

Research Area

1. particle based modelling (DEM) for geotechnics
2. numerical modelling of rockfall meshes and geogrids
3. triggering and evolution of landslide in granular materials
4. partial saturation in granular materials
5. photogrammetry for landslide monitoring
6. laboratory scale physical modelling of geotechnical problems
7. river bank slope stability
8. bridge-landslide interaction problems

Thesis proposals

1) DEM modelling of rockfall meshes
2) bridge-landslide interaction problems
3) detection of landslide displacements by means of stereo-photogrammetric techniques
4) numerical modelling of the acoustic and seismic signal produced by granular flows
5) physical and numerical modelling of levee stability problems