Your search keyword '"Mora, Serge"' showing total 32 results

1. Spinning elastic beads: a route for simultaneous measurements of shear modulus and interfacial energy of soft materials

Author

Carbonaro, Alessandro, Chagua-Encarnacion, Kennedy-Nexon, Charles, Carole-Ann, Phou, Ty, Ligoure, Christian, Mora, Serge, and Truzzolillo, Domenico

Subjects

Condensed Matter - Soft Condensed Matter, Condensed Matter - Materials Science

Abstract

Large deformations of soft elastic beads spinning at high angular velocity in a denser background fluid are investigated theoretically, numerically, and experimentally using millimeter-size polyacrylamide hydrogel particles introduced in a spinning drop tensiometer. We determine the equilibrium shapes of the beads from the competition between the centrifugal force and the restoring elastic and surface forces. Considering the beads as neo-Hookean up to large deformations, we show that their elastic modulus and surface energy constant can be simultaneously deduced from their equilibrium shape. Also, our results provide further support to the scenario in which surface energy and surface tension coincide for amorphous polymer gels., Comment: 8 figures, 10 pages

Published

2020

2. Effects of particle compressibility on structural and mechanical properties of compressed soft granular materials

Author

Vu, Thi-Lo, Nezamabadi, Saeid, and Mora, Serge

Subjects

Condensed Matter - Soft Condensed Matter

Abstract

Changes in the mechanical properties of granular materials, induced by variations in the intrinsic compressibility of the particles, are investigated by means of numerical simulations based on the combination of the Finite Element and Contact Dynamics methods. Assemblies of athermal 2D particles are subjected to quasi-static uni-axial compactions up to packing fractions close to $1$. Inspired by the contact mechanics in the Hertz's limit, we show that the effect of the compressibility of the particles both on the global and the local stresses, can be described by considering only the packing fraction of the system. This result, demonstrated in the whole range of accessible packing fractions in case of frictionless particles, remains relevant for moderate inter-particles coefficients of friction. The small discrepancies observed with frictional particles originate from irreversible local reorganizations in the system, the later being facilitated by the compressibility of the particles.

Published

2020

3. Cutting and slicing weak solids

Author

Mora, Serge and Pomeau, Yves

Subjects

Condensed Matter - Soft Condensed Matter, Physics - Fluid Dynamics

Abstract

Dicing soft solids with a sharp knife is quicker and smoother if the blade is sliding rapidly parallel to its edge in addition to the normal squeezing motion. We explain this common observation with a consistent theory suited for soft gels and departing from the standard theories of elastic fracture mechanics developed for a century. The gel is assumed to locally fail when submitted to stresses exceeding a threshold $\sigma_1$. The changes in its structure generate a liquid layer coating the blade and transmitting the stress through viscous forces. The driving parameters are the ratio $U/W$ of the normal to the tangential velocity of the blade, and the characteristic length $\eta W/\sigma_1$, with $\eta$ the viscosity of the liquid. The existence of a maximal value of $U/W$ for a steady regime explains the crucial role of the tangential velocity for slicing biological and other soft materials.

Published

2020

4. The Shape of Hanging Elastic Cylinders

Author

Mora, Serge, Ando, Edward, Fromental, Jean-Marc, Phou, Ty, and Pomeau, Yves

Subjects

Condensed Matter - Soft Condensed Matter

Abstract

Deformations of heavy elastic cylinders with their axis in the direction of earth's gravity field are investigated. The specimens, made of polyacrylamide hydrogels, are attached from their top circular cross section to a rigid plate. An equilibrium configuration results from the interplay between gravity that tends to deform the cylinders downwards under their own weight, and elasticity that resists these distortions. The corresponding steady state exhibits fascinating shapes which are measured with lab-based micro-tomography. For any given initial radius to height ratio, the deformed cylinders are no longer axially symmetric beyond a critical value of a control parameter that depends on the volume force, the height and the elastic modulus: lateral wrinkling hierarchy develops, and holes appear at the bottom surface of the shallowest samples. We show that these patterns are the consequences of elastic instabilities.

Published

2019

5. Impact of beads and drops on a repellent solid surface: a unified description

Author

Arora, Sristhti, Fromental, Jean-Marc, Mora, Serge, Phou, Ty, Ramos, Laurence, and Ligoure, Christian

Subjects

Condensed Matter - Soft Condensed Matter, Physics - Fluid Dynamics

Abstract

We investigate freely expanding sheets formed by ultrasoft gel beads, and liquid and viscoelastic drops, produced by the impact of the bead or drop on a silicon wafer covered with a thin layer of liquid nitrogen that suppresses viscous dissipation thanks to an inverse Leidenfrost effect. Our experiments show a unified behaviour for the impact dynamics that holds for solids, liquids, and viscoelastic fluids and that we rationalize by properly taking into account elastocapillary effects. In this framework, the classical impact dynamics of solids and liquids as far as viscous dissipation is negligible, appears as the asymptotic limits of a universal theoretical description. A novel material-dependent characteristic velocity that includes both capillary and bulk elasticity emerges from this unified description of the physics of impact., Comment: to appear in PRL

Published

2018

6. Rearrangement zone around a crack tip in a double self-assembled transient network

Author

Foyart, Guillaume, Ligoure, Christian, Mora, Serge, and Ramos, Laurence

Subjects

Condensed Matter - Soft Condensed Matter

Abstract

We investigate the nucleation and propagation of cracks in self-assembled viscoelastic fluids, which are made of surfactant micelles reversibly linked by telechelic polymers. The morphology of the micelles can be continuously tuned, from spherical to rod-like to wormlike, thus producing transient double networks when the micelles are sufficiently long and entangled, and transient single networks otherwise. For a single network, we show that cracks nucleate when the sample deformation rate involved is comparable to the relaxation time scale of the network. For a double network, by contrast, significant rearrangements of the micelles occur as a crack nucleates and propagates. We show that birefringence develops at the crack tip over a finite length, $\xi$, which corresponds to the length scale over which micelles alignment occur. We find that $\xi$ is larger for slower cracks, suggesting an increase of ductility., Comment: 10 pages, 4 figures

Published

2016

7. Elasto-buoyant heavy spheres: a unique way to test non-linear elasticity

Author

Chakrabarti, Aditi, Chaudhury, Manoj K., Mora, Serge, and Pomeau, Yves

Subjects

Condensed Matter - Materials Science, Condensed Matter - Soft Condensed Matter

Abstract

Extra-large deformations in ultra-soft elastic materials are ubiquitous, yet systematic studies and methods to understand the mechanics of such huge strains are lacking. Here we investigate this complex problem systematically with a simple experiment: by introducing a heavy bead of radius $a$ in an incompressible ultra-soft elastic medium. We find a scaling law for the penetration depth ($\delta$) of the bead inside the softest gels as $\delta \sim a^{3/2}$. While this result is inconsistent with an ideal neo-Hookean model of elastic deformation, according to which the displacement fields must diverge, it is vindicated by an original asymptotic analytic model developed in this article. This model demonstrates that the observed relationship is precisely at the demarcating boundary of what would be required for the field variables to either diverge or converge. This correspondence between a unique mathematical prediction and the experimental observation ushers in new insights into the behavior of the deformations of strongly non-linear materials.

Published

2015

8. Bulk and interfacial stresses in suspensions of soft and hard colloids

Author

Truzzolillo, Domenico, Roger, Valentin, Dupas, Christelle, Mora, Serge, and Cipelletti, Luca

Subjects

Condensed Matter - Soft Condensed Matter

Abstract

We explore the influence of particle softness and internal structure on both the bulk and interfacial rheological properties of colloidal suspensions. We probe bulk stresses by conventional rheology, by measuring the flow curves, shear stress vs strain rate, for suspensions of soft, deformable microgel particles and suspensions of near hard-sphere-like silica particles. A similar behavior is seen for both kind of particles in suspensions at concentrations up to the random close packing volume fraction, in agreement with recent theoretical predictions for sub-micron colloids. Transient interfacial stresses are measured by analyzing the patterns formed by the interface between the suspensions and their own solvent, due to a generalized Saffman-Taylor hydrodynamic instability. At odd with the bulk behavior, we find that microgels and hard particle suspensions exhibit vastly different interfacial stress properties. We propose that this surprising behavior results mainly from the difference in particle internal structure (polymeric network for microgels vs compact solid for the silica particles), rather than softness alone., Comment: 20 pages, 8 figures

Published

2014

9. Softening of edges of solids by surface tension

Author

Mora, Serge and Pomeau, Yves

Subjects

Condensed Matter - Soft Condensed Matter

Abstract

Surface tension tends to minimize the area of interfaces between pieces of matter in different thermodynamic phases, be they in the solid or the liquid state. This can be relevant for the macroscopic shape of very soft solids, and lead to a roughening of initially sharp edges. We calculate this effect for a neo-Hookean elastic solid, with assumptions corresponding to actual experiments, namely the case where an initially sharp edge is rounded by the effect of surface tension felt when the fluid surrounding the soft solid (and so surface tension) is changed at the solid/liquid boundary. We consider two opposite limits where the analysis can be carried to the end, the one of a shallow angle and the one of a very sharp angle. Both cases yield a discontinuity of curvature in the state with surface tension although the initial state had a discontinuous slope.

Published

2014

10. Gravity driven instability in elastic solids

Author

Mora, Serge, Phou, Ty, Fromental, Jean-Marc, and Pomeau, Yves

Subjects

Condensed Matter - Soft Condensed Matter

Abstract

We demonstrate the instability of the free surface of a soft elastic solid facing downwards. Experiments are carried out using a gel of constant density $\rho$, shear modulus $\mu$, put in a rigid cylindrical dish of depth $h$. When turned upside down, the free surface of the gel undergoes a normal outgoing acceleration $g$. It remains perfectly flat for $\rho g h/\mu<\alpha^* $ with $\alpha^*\simeq 6$, whereas a steady pattern spontaneously appears in the opposite case. This phenomenon results from the interplay between the gravitational energy and the elastic energy of deformation, which reduces the Rayleigh waves celerity and vanishes it at the threshold.

Published

2014

11. Soft granular matter

Author

Mora, Serge and Pomeau, Yves

Subjects

Condensed Matter - Soft Condensed Matter

Abstract

We consider a dilute system of small hard beads or hard fibers immersed in a very soft gel able to withstand large elastic deformations. Because of its low to very low shear modulus, this system is very sensitive to small forces. We calculate the local deformation induced by a constant volume force, the inclusion weight. We explain how this deformation could be put in evidence by using techniques similar to the PIV method (particle image velocimetry) used to show complex velocity fields in transparent fluids.

Published

2014

12. Off-equilibrium surface tension in colloidal suspensions

Author

Truzzolillo, Domenico, Mora, Serge, Dupas, Christelle, and Cipelletti, Luca

Subjects

Condensed Matter - Soft Condensed Matter

Abstract

We study the fingering instability of the interface between two miscible fluids, a colloidal suspension and its own solvent. The temporal evolution of the interface in a Hele-Shaw cell is found to be governed by the competition between the non-linear viscosity of the suspension and an off-equilibrium, effective surface tension $\Gamma_e$. By studying suspensions in a wide range of volume fractions, $\Phi_\mathrm{C}$, we show that $\Gamma_e \sim \Phi_\mathrm{C}^2$, in agreement with Korteweg's theory for miscible fluids. The surface tension exhibits an anomalous increase with particle size, which we account for using entropy arguments., Comment: 5 pages, 5 figures + supplementary material

Published

2013

13. Fingering to fracturing transition in a transient gel

Author

Foyart, Guillaume, Ramos, Laurence, Mora, Serge, and Ligoure, Christian

Subjects

Condensed Matter - Soft Condensed Matter

Abstract

Fracture processes are ubiquitous in soft materials, even in complex fluids, subjected to stresses. To investigate these processes in a simple geometry, we use a model self-assembled transient gel and study the instability patterns obtained in a radial Hele-Shaw cell when a low viscosity oil pushes the more viscous transient gel. Thanks to an analysis of the morphology of the patterns, we find a discontinuous transition between the standard Saffman-Taylor fingering instability and a fracturing instability as the oil injection rate increases. Our data suggest that the flow properties of the gel ahead of the finger tip controls the transition towards fracturing. By analyzing the displacement field of the gel in the vicinity of the fingers and cracks, we show that in the fingering regime, the oil gently pushes the gel, whereas in the fracturing regime, the crack tears apart the gel, resulting in a strong drop of the gel velocity ahead of the crack tip as compared to the tip velocity. We find a unique behavior for the whole displacement field of a gel around a crack, which is drastically different from that around a finger, and reveals the solid-like behavior of the gel at short time. Our experiments and analysis provide quantitative yet simple tools to unambiguously discriminate a finger from a crack in a visco-elastic material., Comment: to appear in Soft Matter

Published

2013

14. Fractures in complex fluids: the case of transient networks

Author

Ligoure, Christian and Mora, Serge

Subjects

Condensed Matter - Soft Condensed Matter

Abstract

We present a comprehensive review of the current state of fracture phenomena in transient networks, a wide class of viscoelastic fluids. We will first define what is a fracture in a complex fluid, and recall the main structural and rheological properties of transient networks. Secondly, we review experimental reports on fractures of transient networks in several configurations: shear-induced fractures, fractures in Hele-Shaw cells and fracture in extensional geometries (filament stretching rheometry and pendant drop experiments), including fracture propagation. The tentative extension of the concepts of brittleness and ductility to the fracture mechanisms in transient networks is also discussed. Finally, the different and apparently contradictory theoretical approaches developed to interpret fracture nucleation will be addressed and confronted to experimental results. Rationalized criteria to discriminate the relevance of these different models will be proposed., Comment: Review; Rheologica Acta 2013 published on line

Published

2013

15. Buckling of a compliant hollow cylinder attached to a rotating rigid shaft

Author

Mora, Serge and Richard, Franck

Published

2019

16. Microemulsion nanocomposites: phase diagram, rheology and structure using a combined small angle neutron scattering and reverse Monte Carlo approach

Author

Puech, Nicolas, Mora, Serge, Phou, Ty, Porte, Gregoire, Jestin, Jacques, and Oberdisse, Julian

Subjects

Condensed Matter - Soft Condensed Matter

Abstract

The effect of silica nanoparticles on transient microemulsion networks made of microemulsion droplets and telechelic copolymer molecules in water is studied, as a function of droplet size and concentration, amount of copolymer, and nanoparticle volume fraction. The phase diagram is found to be affected, and in particular the percolation threshold characterized by rheology is shifted upon addition of nanoparticles, suggesting participation of the particles in the network. This leads to a peculiar reinforcement behaviour of such microemulsion nanocomposites, the silica influencing both the modulus and the relaxation time. The reinforcement is modelled based on nanoparticles connected to the network via droplet adsorption. Contrast-variation Small Angle Neutron Scattering coupled to a reverse Monte Carlo approach is used to analyse the microstructure. The rather surprising intensity curves are shown to be in good agreement with the adsorption of droplets on the nanoparticle surface.

Published

2010

17. Structure and rheological properties of model microemulsion networks filled with nanoparticles

Author

Puech, Nicolas, Mora, Serge, Testard, Vincent, Porte, Grégoire, Ligoure, Christian, Grillo, Isabelle, Phou, Ty, and Oberdisse, Julian

Subjects

Condensed Matter - Soft Condensed Matter

Abstract

Model microemulsion networks of oil droplets stabilized by non ionic surfactant and telechelic polymer C18-PEO(10k)-C18 have been studied for two droplet-to-polymer size ratios. The rheological properties of the networks have been measured as a function of network connectivity and can be described in terms of simple percolation laws. The network structure has been characterised by Small Angle Neutron Scattering. A Reverse Monte Carlo approach is used to demonstrate the interplay of attraction and repulsion induced by the copolymer. These model networks are then used as matrix for the incorporation of silica nanoparticles (R=10nm), individual dispersion being checked by scattering. A strong impact on the rheological properties is found for silica volume fractions up to 9%.

Published

2008

18. Rheology of soft granular materials: uniaxial compression

Author

Nezamabadi Saeid, Radjai Farhang, Mora Serge, Delenne Jean-Yves, and Ghadiri Mojtaba

Subjects

Physics, QC1-999

Abstract

Soft granular materials are assemblies of highly deformable grains interacting via surface forces. The large grain deformations of these materials differ them from hard granular systems, in which, their behaviors are essentially governed by grain rearrangements. In this paper, we study the uniaxial compression of soft granular materials using a numerical approach based on the Material Point Method allowing for large grain deformations, coupled with the Contact Dynamics method for the treatment of unilateral frictional contacts between grains. Considering the neo-Hookean and elasto-plastic grains, the compaction of 2D soft granular packings is analyzed. We focus essentially on the evolution of the packing vertical stress as a function of the packing fraction and the predictive models are proposed.

Published

2021

19. In situ X-ray CT imaging of transient water retention experiments with cyclic drainage and imbibition

Author

Milatz, Marius, primary, Andò, Edward, additional, Viggiani, Gioacchino, additional, and Mora, Serge, additional

Published

2022

20. Highly deformed grain: from the Hertz contact limitation to a new strain field description in 2D

Author

Mora Serge, Vu Thi-Lo, Barés Jonathan, and Nezamabadi Saeid

Subjects

Physics, QC1-999

Abstract

Most of the 2D studies on granular materials consider an assembly of cylindrical particles in the small deformation regime. Investigating the range of validity of the small deformation hypothesis is therefore of crucial importance in order to determine the quantitative relevance of the predictions emerging from these 2D studies. We introduce here a novel experimental set-up based on high resolution imaging and image correlation, and capable of measuring the strain field inside the particles with a cutting edge accuracy. We measure the strain field inside a unique circular cylindrical elastic particle undergoing an uniaxial compression. The significant deviations arising from the comparison with the predictions of the small deformation limit predicted by the Hertz’s theory, and numerical simulations, give insight to improve the modeling of 2D granular materials.

Published

2017

21. Analysis of dense packing of highly deformed grains

Author

Vu Thi Lo, Nezamabadi Saeid, Barés Jonathan, and Mora Serge

Subjects

Physics, QC1-999

Abstract

This paper concerns modeling of soft granular materials in which the grains are highly deformable. In order to simulate these materials, an approach based on an implicit formulation of the Material Point Method in the context of the finite strain theory, allowing for large deformations of grains, coupled with the Contact Dynamics method for the treatment of unilateral frictional contacts between grains, is proposed. In this context, the Mooney-Rivlin constitutive relationship is applied with two different set of elastic parameters. Considering these two material behaviors, a uniaxial compression of 2D soft granular packings is analyzed. The stress-strain relation and the evolution of the packing fraction as well as of the connectivity of the grains are discussed.

Published

2017

22. Experimental observations of root growth in a controlled photoelastic granular material

Author

Barés Jonathan, Mora Serge, Delenne Jean-Yves, and Fourcaud Thierry

Subjects

Physics, QC1-999

Abstract

We present a novel root observation apparatus capable of measuring the mechanical evolution of both the root network and the surrounding granular medium. The apparatus consists of 11 parallel growth frames, two of them being shearable, where the roots grow inside a photo-elastic or glass granular medium sandwiched between two pieces of glass. An automated system waters the plant and image each frame periodically in white light and between crossed polarisers. This makes it possible to follow (i) the root tips and (ii) the grain displacements as well as (iii) their inner pressure. We show how a root networks evolve in a granular medium and how it can mechanically stabilize it. This constitutes a model experiment to move forward in the understanding of the complex interaction between root growth and surrounding soil mechanical evolution.

Published

2017

23. Stress relaxation in model transient networks: percolation and rearrangement of the crosslinks

Author

Filali, Mohammed, Michel, Eric, Mora, Serge, Molino, François, and Porte, Grégoire

Published

2001

24. Experimental observations of root growth in a controlled photoelastic granular material

Author

Barés, Jonathan, Mora, Serge, Delenne, Jean-Yves, Fourcaud, Thierry, Barés, Jonathan, Mora, Serge, Delenne, Jean-Yves, and Fourcaud, Thierry

Abstract

We present a novel root observation apparatus capable of measuring the mechanical evolution of both the root network and the surrounding granular medium. The apparatus consists of 11 parallel growth frames, two of them being shearable, where the roots grow inside a photo-elastic or glass granular medium sandwiched between two pieces of glass. An automated system waters the plant and image each frame periodically in white light and between crossed polarisers. This makes it possible to follow (i) the root tips and (ii) the grain displacements as well as (iii) their inner pressure. We show how a root networks evolve in a granular medium and how it can mechanically stabilize it. This constitutes a model experiment to move forward in the understanding of the complex interaction between root growth and surrounding soil mechanical evolution.

Published

2017

25. Elastobuoyant Heavy Spheres: A Unique Way to Study Nonlinear Elasticity

Author

Chakrabarti, Aditi, primary, Chaudhury, Manoj K., additional, Mora, Serge, additional, and Pomeau, Yves, additional

Published

2016

26. Nonequilibrium Interfacial Tension in Simple and Complex Fluids

Author

Truzzolillo, Domenico, primary, Mora, Serge, additional, Dupas, Christelle, additional, and Cipelletti, Luca, additional

Published

2016

27. Analysis of dense packing of highly deformed grains.

Author

Thi Lo Vu, Nezamabadi, Saeid, Barés, Jonathan, and Mora, Serge

Subjects

GRANULAR materials, PACKING (Mechanical engineering), DEFORMATIONS (Mechanics), STRAINS & stresses (Mechanics), FRICTION, COMPRESSION loads

Abstract

This paper concerns modeling of soft granular materials in which the grains are highly deformable. In order to simulate these materials, an approach based on an implicit formulation of the Material Point Method in the context of the finite strain theory, allowing for large deformations of grains, coupled with the Contact Dynamics method for the treatment of unilateral frictional contacts between grains, is proposed. In this context, the Mooney-Rivlin constitutive relationship is applied with two different set of elastic parameters. Considering these two material behaviors, a uniaxial compression of 2D soft granular packings is analyzed. The stress-strain relation and the evolution of the packing fraction as well as of the connectivity of the grains are discussed. [ABSTRACT FROM AUTHOR]

Published

2017

28. Tiges capillaires

Author

Mora, Serge, PISMEN, Len, Pomeau, Yves, Association Française de Mécanique, and Service irevues, irevues

Subjects

colonnes, profils creux en acier, résistance au feu, constructions mixtes acier-béton, [PHYS.MECA]Physics [physics]/Mechanics [physics], [PHYS.MECA] Physics [physics]/Mechanics [physics]

Abstract

Colloque avec actes et comité de lecture. Internationale.; International audience; Nous montrons qu'une tige élastique incompressible entièrement plongée dans un liquide se déforme sous l'effet de forces capillaires. Suivant les propriétés de symétrie de la section, trois modes de déformation sont possibles : (i) un cylindre circulaire est comprimé axialement, tandis que sa section de dilate de façon homogène ; (ii) Les arêtes vives d'une tige parallélépipédique carrée s'arrondissent, de telle sorte que les sections tendent vers la forme circulaire ; (iii) un prisme triangulaire à base non-équilatérale se courbe. Pour tous ces modes, nous comparons des expériences à des simulations numériques avec un bel accord quantitatif. Ceci met en évidence le couplage qui existe entre la réponse élastique d'un solide mou et les forces capillaires agissant à l'interface solide-liquide. S. Mora, C. Maurini, T. Phou, J.M. Fromental, B. Audoly et Y. Pomeau, 'Capillary deformations of soft immersed rods', soumis à Phys. Rev. Lett. (2013)

Published

2013

29. Fractures retardées dans les réseaux transitoires

Author

Mora, Serge, Association Française de Mécanique, and Service irevues, irevues

Subjects

fracture, nucleation, [PHYS.MECA]Physics [physics]/Mechanics [physics], [PHYS.MECA] Physics [physics]/Mechanics [physics], fluides viscoélastiques

Abstract

Colloque avec actes et comité de lecture. Internationale.; International audience; La structure d'une grande classe de fluides complexes est celle d'un réseau de liens connectés entre eux de façon transitoire : les jonctions se défont et se refont au cours du temps, entrainant un renouvellement permanent de la topologie du réseau. Il est maintenant bien établi que ces fluides viscoélastiques peuvent présenter des fractures [1,2]. Si les fissures se développent instantanément au-delà d'un seuil de contrainte, elles se manifestent aussi en dessous de ce seuil, mais après un certain temps d'attente [2]. Je montrerai comment la mécanique microscopique de nucléation de ces fractures doit être décrite, en mettant en exergue deux régimes physiquement bien distincts: l'apparition des fissures d'un réseau dense est pilotée par la cinétique de la rupture des jonctions [3], alors que la fracture est thermiquement activée [4] lorsque le réseau est lâche. Les domaines de validité de ces deux régimes seront discutés à partir de résultats expérimentaux récents. [1] H. Tabuteau, S. Mora, M. Abkarian, C. Ligoure, 'Microscopic mechanisms of the brittleness of viscoelastic fluids', Phys. Rev. Lett., 102, 155501-155504 (2009) [2] C. Ligoure, S. Mora, 'fractures in complex fluids: the case of transient networks', Rheol. Acta (2013) [3] S. Mora, 'The Kinetic Approach to Fracture in Transient Networks', Soft Matter 7, pp. 4908-4917 (2011) [4] Y. Pomeau, 'Brisure spontanée de cristaux bidimensionnels courbés', C R Acad Sci Ser 314:553 (1992)

Published

2013

30. When solid and liquid imitate

Author

Mora, Serge and Aigle, L2c

Subjects

capillarity, capillarité, fracture, [PHYS.PHYS.PHYS-GEN-PH] Physics [physics]/Physics [physics]/General Physics [physics.gen-ph], élasticité, Soft Mater, elasticity, Matière molle, [PHYS.PHYS.PHYS-FLU-DYN] Physics [physics]/Physics [physics]/Fluid Dynamics [physics.flu-dyn], [SPI.MAT] Engineering Sciences [physics]/Materials

Abstract

Elastic materials surface tension effects are characterized by a length scale. They must be taken into account as soon as this level is not microscopic, which is exactly the case of "soft" materials such as gels, elastomers, and several biological materials.We have highlighted a series of new physical phenomena, as the absence of edges and angles in this "soft matter", existence of a Rayleigh-Plateau instability in a elastic cylinder of sufficiently small diameter, presence of a zone reversible elastic very stretched fracture head by masked area plastic deformations for harder materials. We have alsostudied the effect of elastic energy in the unstable Saffman-Taylor, and showed that the surface tension allows to regularize the Biot instability of a compressed solid. The field of applications of this work extends mechanics biological media to the design and construction of objects microscopic controlled geometry., Les effets de la tension superficielle des matériaux élastiques sont caractérisés par une échelle de longueur. Ils doivent être pris en compte dès que cette échelle n'est pas microscopique, ce qui est précisément le cas de matériaux « mous » comme les gels, les élastomères, et plusieurs matériaux biologiques. Nous avons ainsi mis en évidence une série de phénomènes physiques nouveaux, comme l'absence d'arêtes et d'angles dans cette « matière molle », l'existence d'une instabilité de Rayleigh-Plateau dans un cylindre élastique de diamètre suffisamment petit, la présence d'une zone élastique réversible très étirée en tête de fracture, zone masquée par des déformations plastiques pour les matériaux plus durs. Nous avons aussiétudié l'effet d'une énergie élastique sur l'instabilité de Saffman-Taylor, et montré que la tension superficielle permet de régulariser l'instabilité de Biot d'un solide comprimé. Le champ d'applications de ces travaux s'étend de la mécanique des milieux biologiques à la conception et la réalisation d'objets microscopiques de géométrie contrôlée.

Published

2011

31. Silica nanoparticles dispersed in a self-assembled viscoelastic matrix: structure, rheology, and comparison to reinforced elastomers

Author

Puech, Nicolas, primary, Mora, Serge, additional, Porte, Grégoire, additional, Phou, Ty, additional, Grillo, Isabelle, additional, and Oberdisse, Julian, additional

Published

2009

32. Ductility versus Brittleness in Self-Assembled Transient Networks

Author

Tabuteau, Hérvé, primary, Mora, Serge, additional, Ramos, Laurence, additional, Porte, Grégoire, additional, and Ligoure, Christian, additional

Published

2008