Optimal strengthening of particle-loaded liquid foams
Fran\c{c}ois Gorlier, Yacine Khidas, Abdoulaye Fall, Olivier Pitois

TL;DR
This study investigates the rheological properties of particle-loaded liquid foams, revealing a new elastic regime driven by a granular skeleton structure and providing models to predict their elastic modulus based on microstructure.
Contribution
It introduces a novel elastic regime in particle-loaded foams and links the microstructure to rheological behavior, expanding understanding of foam mechanics with granular skeleton insights.
Findings
Identification of a new elastic regime with high modulus values
Granular skeleton formation responsible for elastic behavior
Two-step yielding process observed in rheological tests
Abstract
Foams made of complex fluids such as particle suspensions have a great potential for the development of advanced aerated materials. In this paper we study the rheological behavior of liquid foams loaded with granular suspensions. We focus on the effect of small particles, i.e. particle-to-bubble size ratio smaller than 0.1, and we measure the complex modulus as a function of particle size and particle volume fraction. With respect to previous work, the results highlight a new elastic regime characterized by unequaled modulus values as well as independence of size ratio. A careful investigation of the material microstructure reveals that particles organize through the network between the gas bubbles and form a granular skeleton structure with tightly packed particles. The latter is proven to be responsible for the reported new elastic regime. Rheological probing performed by strain sweep…
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