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An Experimental Study on Complete Droplet Rebound from Soft Surfaces: Critical Weber Numbers, Maximum Spreading, and Contact Time

Lei Yang, Ximiao Liu, Jinyang Wang, Peng Zhang

2024Langmuir12 citationsDOI

Abstract

Droplet impact on soft surfaces (PDMS) was experimentally studied with particular interest in the complete rebound of droplets. This study focuses on the effect of liquid viscosity and the elastic modulus of the substrate on the critical rebound Weber number, maximum spreading, and contact time. Specifically, the lower and upper critical Weber numbers increase with an increasing droplet viscosity. With decreasing PDMS elastic modulus, the upper critical Weber number increases, while the lower critical Weber number decreases. The PDMS elastic modulus does not significantly affect the maximum spreading time and contact time. An interesting phenomenon of discontinuous contact time was experimentally observed and was theoretically interpreted.

Topics & Concepts

Elastic modulusViscosityMaterials scienceModulusWeber numberContact areaMechanicsThermodynamicsComposite materialPhysicsReynolds numberTurbulenceSurface Modification and SuperhydrophobicityFluid Dynamics and Heat TransferNanomaterials and Printing Technologies