Static wetting on deformable substrates, from liquids to soft solids
Robert W. Style,Eric R. Dufresne +1 more
Reads0
Chats0
TLDR
In this paper, a linear-elastic model incorporating an out-of-plane restoring force due to solid surface tension was recently shown to accurately predict the equilibrium shape of a thin elastic film due to a large sessile droplet.Abstract:
Young's law fails on soft solid and liquid substrates where there are substantial deformations near the contact line. On liquid substrates, this is captured by Neumann's classic analysis, which provides a geometrical construction for minimising the interfacial free energy. On soft solids, the total free energy includes an additional contribution from elasticity. A linear-elastic model incorporating an out-of-plane restoring force due to solid surface tension was recently shown to accurately predict the equilibrium shape of a thin elastic film due to a large sessile droplet. Here, we extend this model to find substrate deformations due to droplets of arbitrary size. While the macroscopic contact angle matches Young's law for large droplets, it matches Neumann's prediction for small droplets. The cross-over droplet size is roughly given by the ratio of the solid's surface tension and elastic modulus. On thin substrates at this cross-over, the macroscopic contact angle increases, indicating that the substrate is effectively less wetting. For droplets of all sizes, the microscopic behaviour near the contact line follows the Neumann construction giving local force balance.read more
Citations
More filters
Journal ArticleDOI
Traction force microscopy in physics and biology
Robert W. Style,Rostislav Boltyanskiy,Guy K. German,Callen Hyland,Christopher W. MacMinn,Aaron F. Mertz,Aaron F. Mertz,Larry Wilen,Ye Xu,Eric R. Dufresne +9 more
TL;DR: This paper showcases the wide range of applicability of TFM, describes the theory, and provides experimental details and code so that experimentalists can rapidly adopt this powerful technique.
Journal ArticleDOI
Surface tension and contact with soft elastic solids
Robert W. Style,Callen Hyland,Rostislav Boltyanskiy,John S. Wettlaufer,John S. Wettlaufer,Eric R. Dufresne +5 more
TL;DR: It is shown that, whereas the Johnson-Kendall-Roberts theory holds for particles larger than a critical, elastocapillary lengthscale, it fails for smaller particles, and adhesion of small particles mimics the adsorption of particles at a fluid interface, with a size-independent contact angle between the undeformed surface and the particle given by a generalized version of the Young's law.
Journal ArticleDOI
Multidimensional traction force microscopy reveals out-of-plane rotational moments about focal adhesions
Wesley R. Legant,Colin K. Choi,Jordan S. Miller,Lin Shao,Liang Gao,Eric Betzig,Christopher S. Chen +6 more
TL;DR: A high-spatiotemporal-resolution, multidimensional traction force microscopy system is developed to measure and model the full 3D nature of cellular forces on planar 2D surfaces and suggests that rotational moments can be generated largely via shear lag transfer to the underlying ECM from actomyosin contractility applied at the intracellular surface of a rigid adhesion of finite thickness.
Journal ArticleDOI
Elastocapillarity: Surface Tension and the Mechanics of Soft Solids
TL;DR: In this paper, the authors outline the theory of surface stresses from both mechanical and thermodynamic perspectives, emphasizing the relationship between surface stress and surface energy, and highlight how surface stresses cause dramatic departures from classic theories for wetting (Young-Dupre), adhesion (Johnson-Kendall-Roberts), and composites (Eshelby).
Journal ArticleDOI
Icephobic materials: Fundamentals, performance evaluation, and applications
TL;DR: In this paper, a review of recent research progress in water wetting state, ice nucleation, and ice adhesion from both theoretical and application perspectives is presented, with an emphasis on reducing the water adhesion at low temperatures.
References
More filters
Journal ArticleDOI
An Essay on the Cohesion of Fluids
TL;DR: In this article, it has been shown that for each combination of a solid and a fluid, there is an appropriate angle of contact between the surfaces of the fluid, exposed to the air, and to the solid.
Journal ArticleDOI
Wetting and Roughness
TL;DR: In this article, the roughness of a solid is discussed, and it is shown that both the apparent contact angle and the contact angle hysteresis can be dramatically affected by the presence of roughness.
Journal ArticleDOI
The Surface Tension of Solids
TL;DR: In this paper, a distinction is made between the surface Helmholtz free energy F, and the surface tension γ, which is the tangential stress (force per unit length) in the surface layer; this stress must be balanced either by external forces or by volume stresses in the body.
Journal ArticleDOI
Interfaces and stresses in thin films
TL;DR: A review of the current understanding of the effect of interfaces on the intrinsic stresses in polycrystalline thin films is given in this article, where special attention is paid to the measurement, modeling and application of surface and interface stresses.
Journal ArticleDOI
Elasto-capillarity: deforming an elastic structure with a liquid droplet
Benoît Roman,José Bico +1 more
TL;DR: This work defines the different length scales that are relevant for 'elasto-capillary' problems of slender structures and describes the size of a bundle of wet hair, the condition for a flexible rod to pierce a liquid interface or the fate of a liquid droplet deposited on a flexible thin sheet.