Add to ORKGExperimental results are presented for the relaxation of a two dimensional soap foam in which wall breakage is initiated through gentle warming of the foam cell. Significantly different phenomenology from the relaxation of nonbreaking foams is observed. At a critical "break time," which depends on the temperature ramping rate and initial conditions, a large scale mechanical cascade of wall rupture sets in, leading to a rapid disintegration of the foam. In the cascade regime, whose behavior is essentially independent of the ramping rate, a dynamical scaling behavior, associated with the distribution of cell edge lengths, is proposed
International audienceFoams have been used for decades as displacing fluids for EOR and aquifer reme...
International audienceWe study the bubble rearrangement dynamics in aqueous foam during the passage ...
We report image analysis of popping bubbles during the collapsing of two-dimensional (2D) and 3D aqu...
Experimental results are presented for the relaxation of a two dimensional soap foam in which wall b...
This dissertation describes research on the structure and dynamics of two-dimensional foams. New exp...
The microrheology of dry soap foams subjected to large, quasistatic, simple shearing deformations is...
This paper examines the behaviour of growing and collapsing foams. In particular, it focuses on the ...
Steady-state rising foam is an ideal medium for studying foam coalescence phenomena. The coalescence...
By focusing on entire gas bubbles, rather than soap films or vertices, a microscopic model was recen...
In classical foam stability studies, foam height variation is monitored versus time. The decay patte...
The cell wall rupture kinetics for a collection of AlSi9 foam samples kept at a constant temperature...
The morphology of solid metallic foams is governed by the evolution of the cellular structure during...
We have studied the effect of cell boundary on 2D foam, with particular attention to perfect arrays ...
Increasing interest in lightweight Mg foams for the potential impact energy dissipation application ...
Stress redistribution caused by damage onset and the subsequent local softening plays an important r...
International audienceFoams have been used for decades as displacing fluids for EOR and aquifer reme...
International audienceWe study the bubble rearrangement dynamics in aqueous foam during the passage ...
We report image analysis of popping bubbles during the collapsing of two-dimensional (2D) and 3D aqu...
Experimental results are presented for the relaxation of a two dimensional soap foam in which wall b...
This dissertation describes research on the structure and dynamics of two-dimensional foams. New exp...
The microrheology of dry soap foams subjected to large, quasistatic, simple shearing deformations is...
This paper examines the behaviour of growing and collapsing foams. In particular, it focuses on the ...
Steady-state rising foam is an ideal medium for studying foam coalescence phenomena. The coalescence...
By focusing on entire gas bubbles, rather than soap films or vertices, a microscopic model was recen...
In classical foam stability studies, foam height variation is monitored versus time. The decay patte...
The cell wall rupture kinetics for a collection of AlSi9 foam samples kept at a constant temperature...
The morphology of solid metallic foams is governed by the evolution of the cellular structure during...
We have studied the effect of cell boundary on 2D foam, with particular attention to perfect arrays ...
Increasing interest in lightweight Mg foams for the potential impact energy dissipation application ...
Stress redistribution caused by damage onset and the subsequent local softening plays an important r...
International audienceFoams have been used for decades as displacing fluids for EOR and aquifer reme...
International audienceWe study the bubble rearrangement dynamics in aqueous foam during the passage ...
We report image analysis of popping bubbles during the collapsing of two-dimensional (2D) and 3D aqu...