Abstract In nature, mesoscopic or microscopic cellular structures like trabecular bone, wood, shell, and sea urchin, can have high load-carrying capacity. These cellular structures with diverse shapes, forms and designs can be mainly classified into open and closed cell cellular structures. It is difficult to replicate these natural complex lattice structures with traditional manufacturing, but additive manufacturing (AM) technology development has allowed engineers and scientists to mimic these natural structures. Fabricating close cell lattice structures is still considered difficult due to the support structure within the lattices. This paper evaluates a novel way of fabricating a close cell lattice structure with a material extrusion pr...
The bio-inspired structure (e.g., honeycomb) has been studied for its ability to absorb energy and i...
The design and analysis of lattice structures manufactured using Additive Manufacturing (AM) techniq...
Additive manufacturing (AM) methods have a growing application in different fields such as aeronaut...
In nature, mesoscopic or microscopic cellular structures like trabecular bone, wood, shell, and sea ...
This study analyses the energy absorption and stiffness behaviour of 3D-printed supportless, closed...
This paper analyzes the effect of thin and thick walls on functional properties of 3D printed cell ...
Cellular material structures, such as honeycombs and lattice structures, enable unprecedented stiff...
This study proposes an innovative design solution based on the design for additive manufacturing (Df...
Cellular materials, such as foams, can be used as load bearing members in civil construction and as ...
AbstractAdditive manufacturing has opened doors to many new technological developments that could no...
Many natural and engineered structures possess cellular and porous architecture. This paper is focus...
The aim of this work is to evaluate the mechanical properties and failure analysis of cellular core ...
Cellular lattice structures have been gaining traction because of its fairly low mass and density, ...
Lattice structures possess exceptional mechanical strength resulting in highly efficient load suppor...
The advancements in 3D printing technologies have resulted in the ease of manufacturing cellular mic...
The bio-inspired structure (e.g., honeycomb) has been studied for its ability to absorb energy and i...
The design and analysis of lattice structures manufactured using Additive Manufacturing (AM) techniq...
Additive manufacturing (AM) methods have a growing application in different fields such as aeronaut...
In nature, mesoscopic or microscopic cellular structures like trabecular bone, wood, shell, and sea ...
This study analyses the energy absorption and stiffness behaviour of 3D-printed supportless, closed...
This paper analyzes the effect of thin and thick walls on functional properties of 3D printed cell ...
Cellular material structures, such as honeycombs and lattice structures, enable unprecedented stiff...
This study proposes an innovative design solution based on the design for additive manufacturing (Df...
Cellular materials, such as foams, can be used as load bearing members in civil construction and as ...
AbstractAdditive manufacturing has opened doors to many new technological developments that could no...
Many natural and engineered structures possess cellular and porous architecture. This paper is focus...
The aim of this work is to evaluate the mechanical properties and failure analysis of cellular core ...
Cellular lattice structures have been gaining traction because of its fairly low mass and density, ...
Lattice structures possess exceptional mechanical strength resulting in highly efficient load suppor...
The advancements in 3D printing technologies have resulted in the ease of manufacturing cellular mic...
The bio-inspired structure (e.g., honeycomb) has been studied for its ability to absorb energy and i...
The design and analysis of lattice structures manufactured using Additive Manufacturing (AM) techniq...
Additive manufacturing (AM) methods have a growing application in different fields such as aeronaut...