Dynamic Deformations and Forces in Soft Matter

TL;DR

This paper investigates how soft matter like drops and bubbles deform dynamically during interactions, revealing behaviors such as dimple formation and coalescence driven by hydrodynamic forces and geometric changes.

Contribution

It introduces a new dimensionless parameter, the film capillary number, to describe the dynamic deformation behavior of soft matter during interactions.

Findings

Dimple formation occurs during approach of drops.

Coalescence can happen during separation due to dynamic effects.

The film capillary number predicts deformation regimes.

Abstract

The ability of soft matter such as drops and bubbles to change shape dynamically during interaction can give rise to counter-intuitive behaviour that may be expected of rigid materials. Here we show that dimple formation on approach and the possibility of coalescence on separation of proximal drops in relative motion are examples of this general dynamic behaviour of soft matter that arise from the coupling between hydrodynamic forces and geometric deformations. The key parameter is a film capillary number Caf = (muVo/sigma)(R/Ho)2 that depends on viscosity mu, interfacial tension sigma, the Laplace radius R, characteristic film thickness Ho and velocity Vo.