Adhesion of yield stress fluids

Q. Barral; G. Ovarlez; X. Chateau; J. Boujlel; B. Rabideau; P. Coussot

doi:10.1039/b922162j

Adhesion of yield stress fluids

Q. Barral
, G. Ovarlez
, X. Chateau
, J. Boujlel
, B. Rabideau
, P. Coussot

Université Paris-Est

Résultats de recherche: Contribution à un journal › Article › Revue par des pairs

Résumé

The different regimes of flow when separating two solid rough surfaces in contact via a layer of a simple yield stress fluid are identified. Generic scalings for the adhesion energy and for the geometrical characteristics of the final deposits (after separation) as a function of the initial aspect ratio of the sample are found. We show that there is a strong pinning effect which might be at the origin of an adhesion energy significantly larger (by a factor about 2) than that estimated from the lubrication theory. We also observe that the conditions of development of viscous fingering are not at all predicted by the conventional Saffman-Taylor instability theory taking into account the specific non-Newtonian character of the fluid. This again suggests that for pastes the pinning effect plays a significant stabilizing role.

langue originale	Anglais
Pages (de - à)	1343-1351
Nombre de pages	9
journal	Soft Matter
Volume	6
Numéro de publication	6
Les DOIs	https://doi.org/10.1039/b922162j
état	Publié - 1 déc. 2010
Modification externe	Oui

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abstract = "The different regimes of flow when separating two solid rough surfaces in contact via a layer of a simple yield stress fluid are identified. Generic scalings for the adhesion energy and for the geometrical characteristics of the final deposits (after separation) as a function of the initial aspect ratio of the sample are found. We show that there is a strong pinning effect which might be at the origin of an adhesion energy significantly larger (by a factor about 2) than that estimated from the lubrication theory. We also observe that the conditions of development of viscous fingering are not at all predicted by the conventional Saffman-Taylor instability theory taking into account the specific non-Newtonian character of the fluid. This again suggests that for pastes the pinning effect plays a significant stabilizing role.",

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AU - Barral, Q.

AU - Ovarlez, G.

AU - Chateau, X.

AU - Boujlel, J.

AU - Rabideau, B.

AU - Coussot, P.

PY - 2010/12/1

Y1 - 2010/12/1

N2 - The different regimes of flow when separating two solid rough surfaces in contact via a layer of a simple yield stress fluid are identified. Generic scalings for the adhesion energy and for the geometrical characteristics of the final deposits (after separation) as a function of the initial aspect ratio of the sample are found. We show that there is a strong pinning effect which might be at the origin of an adhesion energy significantly larger (by a factor about 2) than that estimated from the lubrication theory. We also observe that the conditions of development of viscous fingering are not at all predicted by the conventional Saffman-Taylor instability theory taking into account the specific non-Newtonian character of the fluid. This again suggests that for pastes the pinning effect plays a significant stabilizing role.

AB - The different regimes of flow when separating two solid rough surfaces in contact via a layer of a simple yield stress fluid are identified. Generic scalings for the adhesion energy and for the geometrical characteristics of the final deposits (after separation) as a function of the initial aspect ratio of the sample are found. We show that there is a strong pinning effect which might be at the origin of an adhesion energy significantly larger (by a factor about 2) than that estimated from the lubrication theory. We also observe that the conditions of development of viscous fingering are not at all predicted by the conventional Saffman-Taylor instability theory taking into account the specific non-Newtonian character of the fluid. This again suggests that for pastes the pinning effect plays a significant stabilizing role.

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VL - 6

SP - 1343

EP - 1351

JO - Soft Matter

JF - Soft Matter

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ER -

Adhesion of yield stress fluids

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