Revisiting the particle size effects in centrifuge modelling

Nadimi, S; Fonseca, J; Taylor, R N; Barreto, D

Revisiting the particle size effects in centrifuge modelling

Nadimi, S; Fonseca, J; Taylor, R N; Barreto, D

Authors

S Nadimi

J Fonseca

R N Taylor

Dr Daniel Barreto Gonzalez D.Barreto@napier.ac.uk
Associate Professor

Contributors

Luc Thorel
Editor

Alberto Bretschneider
Editor

Matthieu Blanc
Editor

Sandra Escoffier
Editor

Abstract

Geotechnical centrifuge modelling provides an opportunity to examine novel and complex events in a well-controlled and repeatable environment. While grain interaction and contact dynamics are considered in centrifuge modelling, the soil is treated as a continuum, consistent with standard geotechnical analysis. In the last four decades, particle size effects have been normally approached by the ratio of median particle diameter to critical dimension of modelled structure. The current study considers the response of a granular medium in a centrifuge model by coupling physical tests and equivalent discrete element simulations. The response of a strip footing on uniformly graded glass ballotini is investigated. This is chosen as the sample characteristics can be accurately replicated in a discrete element simulation. Particle size distribution, gravity and footing width are scaled in the context of model-the-model technique and the sensitivity of the bulk response to rapid increase in stress level is explored. This will help establishing the link between the micro phenomena and the macro response and contribute towards improving geotechnical design. The paper describes the work conducted to overcome challenges related to physical modelling including particle mixing, sample preparation, image analysis, and loading apparatus.

Citation

Nadimi, S., Fonseca, J., Taylor, R. N., & Barreto, D. (2016, June). Revisiting the particle size effects in centrifuge modelling. Presented at The 3rd European Conference on Physical Modelling in Geotechnics, Nantes, France

Presentation Conference Type	Conference Paper (published)
Conference Name	The 3rd European Conference on Physical Modelling in Geotechnics
Start Date	Jun 1, 2016
End Date	Jun 3, 2016
Acceptance Date	May 2, 2016
Publication Date	Jun 1, 2016
Deposit Date	May 12, 2017
Publicly Available Date	May 12, 2017
Pages	85-90
Book Title	EUROFUGE 2016, 3rd European conference on Physical Modelling in Geotechnics
Chapter Number	1
ISBN	978-2-85782-716-0, 978-2-85782-717-7
Keywords	DEM, discrete element method, soil behaviour, environmental science, geophysics.
Public URL	http://researchrepository.napier.ac.uk/Output/834476
Related Public URLs	http://eurofuge2016.ifsttar.fr/
Additional Information	This paper had a change in title: A new approach to investigate the particle size effects in centrifuge modelling Proceedings available: http://eurofuge2016.ifsttar.fr/
Contract Date	May 12, 2017

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