Buckling of a rod penetrating into granular media

Seguin, Antoine; Gondret, Philippe

doi:10.1103/physreve.98.012906

Cited by 6 publications

(12 citation statements)

References 25 publications

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“…These values lay in the same range as previous estimations for flat-ended rods penetrating into glass beads [6]. Due to the finite size effect of the container, possible wall effect generated by friction may be expected [28][29][30].…”

Section: Resultssupporting

confidence: 86%

“…In this study, we consider as a reference case the intrusion of the rod at a constant and low velocity without cycles. A previous study has shown that this force results from two contributions: the hydrostatic-like pressure applying on the tip of the rod and the frictional force exerting along its length [6]. They provided the following expression for the vertical force F 0 experienced during a continuous intrusion:…”

Section: Resultsmentioning

confidence: 99%

“…For a rod, they measured C 9.5 and λ 1.6 in penetration, C −0.66 and λ 1.3 in extraction. In the case of penetration alone, another model has been proposed considering that the drag force comes from the contribution of two terms: one coming from the hydrostatic-like pressure at the tip of the rod F ∝ z and another resulting from the friction applying on the lateral surface F ∝ z 2 [6]. Recently, the penetration of objects at shallow depths has shown the presence of a particular regime where the drag force is closely related to the Archimedean force with a pre-factor that strongly increases with the effective friction coefficient of the granular medium [7,8].…”

Section: Introductionmentioning

confidence: 99%

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Successive reintrusions in a granular medium

Texier

Seguin

2022

Phys. Rev. E

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We measure and analyze the drag force experienced by a rigid rod that penetrates vertically into a granular medium, partially withdraws before sinking again. The drag during the successive reintrusions is observed to be significantly smaller than the force experienced in the first run. Two force regimes are evidenced depending on how the re-intrusion depth compares with the withdrawal distance ∆. These two regimes are characterized by a force curve of positive and negative curvature and are separated by an inflection point which is characterized experimentally. We approach the difference between the first intrusion and the following re-intrusions by considering a modification in the stress field of the granular material after the partial extraction of the rod. A theoretical model for the stress modification is proposed and allows to rationalize all the experiments realized for different withdrawal distances ∆. This framework introduces a crossover length λ above which the stress modification in the granular medium is maintained and that is shown to depend linearly on ∆. Finally, the model provides a prediction for the location of the inflection points in reasonable agreement with observations.

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Section: Resultssupporting

confidence: 86%

Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Successive reintrusions in a granular medium

Texier

Seguin

2022

Phys. Rev. E

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“…14 Such systems form periodically ordered liquid film architectures into which an elastic ribbon can be introduced. Although the question of complex deformation of an intruder in an architected medium has been widely studied in the case of granular media 15,16 with applications in the context of root growth, 17 a limited number of studies on model systems exist in the case of liquid foams, such as the analysis of simple arrangements of soap films interacting with rigid solids, 18 and simulations of flexible fibres in foam under shear. 19 We consider a model system composed of an ordered assembly of monodisperse soap bubbles and an elastomer ribbon (Fig.…”

Section: Introductionmentioning

confidence: 99%

Elastocapillary deformation of thin elastic ribbons in 2D foam columns

et al. 2022

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“…Such systems form periodically ordered liquid film architectures into which an elastic ribbon can be introduced. Although the question of complex deformation of an intruder in an architected medium has been widely studied in the case of granular media [15,16] with applications in the context of root growth [17], a limited number of studies on model systems exist in the case of liquid foams, such as the analysis of simple arrangements of soap films interacting with rigid solids [18], and simulations of flexible fibres in foam under shear [19]. We consider a model system composed of an ordered assembly of monodisperse soap bubbles and an elastomer ribbon (Fig.…”

Section: Introductionmentioning

confidence: 99%

Elastocapillary deformation of thin elastic ribbons in 2D foam columns

Jouanlanne¹,

Egelé²,

Favier³

et al. 2021

Preprint

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The ability of liquid interfaces to shape slender elastic structures provides powerful strategies to control the architecture of mechanical self assemblies. However, elastocapillarity-driven intelligent design remains unexplored in more complex architected liquids -such as foams. Here we propose a model system which combines an assembly of bubbles and a slender elastic structure. Arrangement of soap bubbles in confined environments form well-defined periodic structures, dictated by Plateau's laws. We consider a 2D foam column formed in a square section cylinder in which we introduce an elastomer ribbon, leading to architected structures whose geometry is guided by a competition between elasticity and capillarity. In this system, we quantify both experimentally and theoretically the equilibrium shapes, using X-ray micro-tomography and energy minimisation techniques. Beyond the understanding of the amplitude of the wavy elastic ribbon deformation, we provide a detailed analysis of the profile of the ribbon, and show that such setup can be used to grant a shape to a UV-curable composite slender structure, as a foam-forming technique suitable to miniaturisation. In more general terms, this work provides a stepping stone towards an improved understanding of the interactions between liquid foams and slender structures.

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Buckling of a rod penetrating into granular media

Cited by 6 publications

References 25 publications

Successive reintrusions in a granular medium

Successive reintrusions in a granular medium

Elastocapillary deformation of thin elastic ribbons in 2D foam columns

Elastocapillary deformation of thin elastic ribbons in 2D foam columns

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