Litcius/Paper detail

Rheoacoustic Gels: Tuning Mechanical and Flow Properties of Colloidal Gels with Ultrasonic Vibrations

Thomas Gibaud, Noémie Dagès, Pierre Lidon, Guillaume Jung, L. Christian Ahouré, Michael Sztucki, Arnaud Poulesquen, Nicolas Hengl, Frédéric Pignon, Sébastien Manneville

2020Physical Review X29 citationsDOIOpen Access PDF

Abstract

Colloidal gels, where nanoscale particles aggregate into an elastic yet fragile network, are at the heart of materials that combine specific optical, electrical, and mechanical properties. Tailoring the viscoelastic features of colloidal gels in real time thanks to an external stimulus currently appears as a major challenge in the design of "smart" soft materials. Here we introduce "rheoacoustic" gels, a class of materials that are sensitive to ultrasonic vibrations. By using a combination of rheological and structural characterization, we evidence and quantify a strong softening in three widely different colloidal gels submitted to ultrasonic vibrations (with submicron amplitude and frequency 20-500 kHz). This softening is attributed to micronsized cracks within the gel network that may or may not fully heal once vibrations are turned off depending on the acoustic intensity. Ultrasonic vibrations are further shown to dramatically decrease the gel yield stress and accelerate shear-induced fluidization. Ultrasound-assisted fluidization dynamics appear to be governed by an effective temperature that depends on the acoustic intensity. Our work opens the way to a full control of elastic and flow properties by ultrasonic vibrations as well as to future theoretical and numerical modeling of such rheoacoustic gels.

Topics & Concepts

Materials scienceViscoelasticityUltrasonic sensorSofteningVibrationColloidRheologyComposite materialAcoustic streamingStiffnessMicrofluidicsStress (linguistics)Mechanical vibrationElasticity (physics)UltrasoundAmplitudeWork (physics)Complex fluidNanotechnologyFlow (mathematics)Low frequencyParticle displacementPorous mediumAcousticsElastic modulusStress relaxationPickering emulsions and particle stabilizationHydrogels: synthesis, properties, applicationsMicro and Nano Robotics
Rheoacoustic Gels: Tuning Mechanical and Flow Properties of Colloidal Gels with Ultrasonic Vibrations | Litcius