Purpose - The aim of this work is the development of a procedure able to model the highly irregular cellular structure of metallic foams on the basis of information obtained by X-ray tomographic analysis. Design/methodology/approach - The geometric modelling is based on the feature "pore" characterized by an ellipsoidal shape. The data for the geometric parameters of the instances are obtained with a methodology which is driven by the pore volume distribution curve. This curve shows how much the cells, whose diameter belongs to a given dimensional range, contribute to the reduction of the total volume. Findings - The presented methodology has been implemented into a CAD tool consisting of a Matlab routine identifying the instances of the fe...
This contribution addresses the multiscale computational modelling of closed cell metal- lic foams b...
Cellular materials have a bulk matrix with a larger number of voids named also cells. Metallic foams...
Metal foams are a relatively new class of materials exhibiting well physical and mechanical properti...
Purpose: The aim of this work is the development of a procedure able to model the highly irregular...
The geometrical modelling of metal foams remains one of the greatest challenges facing researchers i...
The mechanical behavior of closed cell metallic foams strongly depends on their geometry at the scal...
Physical properties of metallic foams are a direct consequence of their micro-/macro-structure. To i...
X-ray microcomputed tomography has been gaining relevance in the field of cellular materials to char...
The present article introduces an automated procedure to construct geometrical Representative Volume...
This contribution addresses the finite element modelling of closed cell metallic foams using Represe...
AbstractA novel method for modeling cellular materials is proposed based on MATLAB image processing ...
This study presents an imaged-based shell modelling strategy for closed cell metallic foams exploiti...
AbstractSynthetic open-cell foams have a complex microstructure consisting of an interconnected netw...
The macroscopic properties of open cell foams are highly influenced by the foam’s microstructure. Re...
CHARACTERIZATION OF METAL FOAMS WITH SYNCHROTRON TOMOGRAPHY AND 3D IMAGE ANALYSIS A. Rack, A. Haib...
This contribution addresses the multiscale computational modelling of closed cell metal- lic foams b...
Cellular materials have a bulk matrix with a larger number of voids named also cells. Metallic foams...
Metal foams are a relatively new class of materials exhibiting well physical and mechanical properti...
Purpose: The aim of this work is the development of a procedure able to model the highly irregular...
The geometrical modelling of metal foams remains one of the greatest challenges facing researchers i...
The mechanical behavior of closed cell metallic foams strongly depends on their geometry at the scal...
Physical properties of metallic foams are a direct consequence of their micro-/macro-structure. To i...
X-ray microcomputed tomography has been gaining relevance in the field of cellular materials to char...
The present article introduces an automated procedure to construct geometrical Representative Volume...
This contribution addresses the finite element modelling of closed cell metallic foams using Represe...
AbstractA novel method for modeling cellular materials is proposed based on MATLAB image processing ...
This study presents an imaged-based shell modelling strategy for closed cell metallic foams exploiti...
AbstractSynthetic open-cell foams have a complex microstructure consisting of an interconnected netw...
The macroscopic properties of open cell foams are highly influenced by the foam’s microstructure. Re...
CHARACTERIZATION OF METAL FOAMS WITH SYNCHROTRON TOMOGRAPHY AND 3D IMAGE ANALYSIS A. Rack, A. Haib...
This contribution addresses the multiscale computational modelling of closed cell metal- lic foams b...
Cellular materials have a bulk matrix with a larger number of voids named also cells. Metallic foams...
Metal foams are a relatively new class of materials exhibiting well physical and mechanical properti...