Add to ORKGThe flow resistivity tensor, which is the inverse of the viscous permeability tensor, is one of the most important material properties for the acoustic performance of open cell foams, used in acoustic treatments. Due to the manufacturing processes, these foams are most often geometrically anisotropic. This paper discusses the estimation of the flow resistivity tensor using an improvement of a previously published method by Göransson, Guastavino et al. First, flow measurements were performed for different orientations of a cubic porous sample. The modelling of the flow resistivity tensor is centred around a three-dimensional Darcy\'s law model in COMSOL Earth Science Module, representing the experimental set up. The simulations are performed...
International audienceThis article presents an experimental and numerical parametric study of the ac...
It is long known that for high-velocity fluid flow in porous media, the relation between the pressur...
Heat transfer can be enhanced by employing open-cell metal foams which are cellular materials where ...
The flow resistivity tensor, which is the inverse of the viscous per- meability tensor, is one of th...
The production processes of porous materials introduce an inherent geometric anisotropy in the mater...
International audienceKnowledge of flow properties induced by open cell foams is essential to the su...
It is long known that for high-velocity fluid flow in porous media, the relation between the pressur...
This paper proposes an inverse estimation method for the characterisation of the elastic and anelast...
Transportation is a large and growing part of the world’s energy consumption. This drives a need for...
A direct and inverse method is proposed for measuring the thickness and flow resistivity of a rigid ...
International audienceAn acoustic method is proposed for measuring the flow resistivity and the thic...
Metallic open-cell foams have proven to be valuable for many engineering applications. Their success...
International audienceUsing numerical homogenization techniques at microstructure scale, one can sim...
An acoustic method is proposed for measuring the flow resistivity and the thickness of air-saturated...
Commercial open-cell metal foam has very high porosity (often greater than 90%) and a large surface ...
International audienceThis article presents an experimental and numerical parametric study of the ac...
It is long known that for high-velocity fluid flow in porous media, the relation between the pressur...
Heat transfer can be enhanced by employing open-cell metal foams which are cellular materials where ...
The flow resistivity tensor, which is the inverse of the viscous per- meability tensor, is one of th...
The production processes of porous materials introduce an inherent geometric anisotropy in the mater...
International audienceKnowledge of flow properties induced by open cell foams is essential to the su...
It is long known that for high-velocity fluid flow in porous media, the relation between the pressur...
This paper proposes an inverse estimation method for the characterisation of the elastic and anelast...
Transportation is a large and growing part of the world’s energy consumption. This drives a need for...
A direct and inverse method is proposed for measuring the thickness and flow resistivity of a rigid ...
International audienceAn acoustic method is proposed for measuring the flow resistivity and the thic...
Metallic open-cell foams have proven to be valuable for many engineering applications. Their success...
International audienceUsing numerical homogenization techniques at microstructure scale, one can sim...
An acoustic method is proposed for measuring the flow resistivity and the thickness of air-saturated...
Commercial open-cell metal foam has very high porosity (often greater than 90%) and a large surface ...
International audienceThis article presents an experimental and numerical parametric study of the ac...
It is long known that for high-velocity fluid flow in porous media, the relation between the pressur...
Heat transfer can be enhanced by employing open-cell metal foams which are cellular materials where ...