A method for generating realistic foam geometries is developed for modelling the structure of stochastic foams. The method employs 3D Voronoi cells as pores. The virtual geometries are subjected to loading with the use of finite element methods and the results are compared to experimental data for open cell Titanium foams. The method applies statistical control to geometrical characteristics and it’s used to either replicate or virtually generate prototype foam structures
The Voronoi tessellation technique and the finite element (FE) method are utilized to investigate th...
Abstract Open-cell foams are considered a potential candidate as an innovative catalyst support in m...
Recently, metal foams are becoming popular in engineering due to their superior material properties,...
AbstractA method for generating realistic foam geometries is developed for modelling the structure o...
A method for generating realistic foam geometries is developed for modelling the structure of stocha...
The macroscopic properties of open cell foams are highly influenced by the foam’s microstructure. Re...
The work reports on the development of random three-dimensional Laguerre-Voronoi computational model...
AbstractThis paper focuses on the development of an algorithm capable of generating morphologically-...
peer reviewedThis paper presents an automated approach to build computationally Representative Volu...
The mechanical behavior of closed cell metallic foams strongly depends on their geometry at the scal...
Purpose: The aim of this work is the development of a procedure able to model the highly irregular...
To facilitate the design and development of porous metals, simulation of their mechanical behavior i...
peer reviewedThe present article introduces an automated procedure to construct geometrical Represe...
Random tessellations are powerful tools for studying micro structure-property relations of foams. We...
The physical behavior of open-cell foams depends on their microscopic structure. An open-cell geomet...
The Voronoi tessellation technique and the finite element (FE) method are utilized to investigate th...
Abstract Open-cell foams are considered a potential candidate as an innovative catalyst support in m...
Recently, metal foams are becoming popular in engineering due to their superior material properties,...
AbstractA method for generating realistic foam geometries is developed for modelling the structure o...
A method for generating realistic foam geometries is developed for modelling the structure of stocha...
The macroscopic properties of open cell foams are highly influenced by the foam’s microstructure. Re...
The work reports on the development of random three-dimensional Laguerre-Voronoi computational model...
AbstractThis paper focuses on the development of an algorithm capable of generating morphologically-...
peer reviewedThis paper presents an automated approach to build computationally Representative Volu...
The mechanical behavior of closed cell metallic foams strongly depends on their geometry at the scal...
Purpose: The aim of this work is the development of a procedure able to model the highly irregular...
To facilitate the design and development of porous metals, simulation of their mechanical behavior i...
peer reviewedThe present article introduces an automated procedure to construct geometrical Represe...
Random tessellations are powerful tools for studying micro structure-property relations of foams. We...
The physical behavior of open-cell foams depends on their microscopic structure. An open-cell geomet...
The Voronoi tessellation technique and the finite element (FE) method are utilized to investigate th...
Abstract Open-cell foams are considered a potential candidate as an innovative catalyst support in m...
Recently, metal foams are becoming popular in engineering due to their superior material properties,...