Cellular materials, such as foams, can be used as load bearing members in civil construction and as protective energy absorbing structures for personnel and equipment. In the present study, novel lightweight closed-cell structures were designed, and their mechanical properties and collapse mechanisms were investigated through a combination of experimental validation and finite element (FE) simulations. Selected porous structure designs were manufactured from acrylonitrile butadiene styrene (ABS) using additive manufacturing technology. These 3D printed structures were subjected to quasi-static loading to determine the dependence of their elastic and plastic responses from their topological features. Deformation mechanisms were elucidated th...
The paper describes experimental and computational testing of regular open-cell cellular structures ...
Metallic foams are currently being looked at as a new material for automobiles. The main goal of the...
Aluminum foams are structural materials with excellent energy absorption capacity jointed with very...
Foams are three dimensional cellular materials, with cell walls made up of a solid or liquid materia...
Study of porous materials, in particular closed-cell foams, has always attracted researchers’ intere...
The paper deals with the numerical analysis of foam materials. Open cell foam is investigated. Numer...
The design of cellular materials with controlled energy dissipation is relevant to a broad range of ...
This article proposes glass-fiber-reinforced bone-inspired cellular structures to enhance energy abs...
Due to their mechanical properties, cellular material structures are often used in automotive, aeros...
Closed-cell aluminium foam is a well-known engineering cellular structure due to its outstanding com...
This study concerns the elastic response of a flexible open cell polyurethane foam and a complex foa...
Protective equipment in sport is used to reduce the risk of incurring injury while competing, with m...
In the present paper numerical design of mechanical properties of open-cell porous materials is addr...
The possible options as materials for protective layers are aluminium foams which become also very p...
Abstract In nature, mesoscopic or microscopic cellular structures like trabecular bone, wood, shell,...
The paper describes experimental and computational testing of regular open-cell cellular structures ...
Metallic foams are currently being looked at as a new material for automobiles. The main goal of the...
Aluminum foams are structural materials with excellent energy absorption capacity jointed with very...
Foams are three dimensional cellular materials, with cell walls made up of a solid or liquid materia...
Study of porous materials, in particular closed-cell foams, has always attracted researchers’ intere...
The paper deals with the numerical analysis of foam materials. Open cell foam is investigated. Numer...
The design of cellular materials with controlled energy dissipation is relevant to a broad range of ...
This article proposes glass-fiber-reinforced bone-inspired cellular structures to enhance energy abs...
Due to their mechanical properties, cellular material structures are often used in automotive, aeros...
Closed-cell aluminium foam is a well-known engineering cellular structure due to its outstanding com...
This study concerns the elastic response of a flexible open cell polyurethane foam and a complex foa...
Protective equipment in sport is used to reduce the risk of incurring injury while competing, with m...
In the present paper numerical design of mechanical properties of open-cell porous materials is addr...
The possible options as materials for protective layers are aluminium foams which become also very p...
Abstract In nature, mesoscopic or microscopic cellular structures like trabecular bone, wood, shell,...
The paper describes experimental and computational testing of regular open-cell cellular structures ...
Metallic foams are currently being looked at as a new material for automobiles. The main goal of the...
Aluminum foams are structural materials with excellent energy absorption capacity jointed with very...