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Communication Dans Un Congrès Année : 2013

Micro-scale study of rupture in desiccating granular media

Résumé

Capillary bridges between two, three, and multiple fixed glass spheres are examined experimentally during their natural evaporation. The key variables of the process of evolution are measured using a calibrated balance recording and digital image processing with still and high-speed cameras. The calculations of Laplace pressure, as well as suction and surface tension resultant components of the interparticle force are made for two-grain systems. Evolution, properties and failure of evaporating liquid bridge are controlled and induced by decreasing liquid volume. For the two grain configuration, tests show a gradual decrease of suction down to zero and into a positive pressure range before a two step failure occurs, including a formation of a water wire according to a Rayleigh instability pattern followed by a simultaneous rupture at two points of the lowest (negative) total (Gauss) curvature of the bridge surface. For more complex systems, a thin-film pinching instability is shown to result from two-dimensional cavitation of water, leading to a reconfiguration of the water body into separate bridges between individual pairs of grains, which then rupture as described above. Water body instability generated dynamic penetration of air may also provide an imperfection for the granular system potentially leading to cracking.

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Génie civil
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Dates et versions

hal-00835080 , version 1 (18-06-2013)

Identifiants

  • HAL Id : hal-00835080 , version 1

Citer

Tomasz Hueckel, Boleslaw Mielniczuk, Moulay Saïd El Youssoufi. Micro-scale study of rupture in desiccating granular media. Geo-Congress 2013, Mar 2013, San Diego, United States. pp.808-817. ⟨hal-00835080⟩
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