The importance of lightweight structures in many fields of engineering is well known since long time. The innovations in technological processes based on material addiction allow pushing the design towards challenging geometries and associated structural properties. Engineered materials like lattice structures can be theoretically used to modify the local material properties and strength with minimization of the mass of components; in practice, several issues are still to be solved in stabilization of additive processes and achieving repeatable structures able to pass qualification procedures. At this purpose, dedicated experimental and design methods like those reported in this paper are needed
With the rapid development of additive manufacturing (AM), high-quality fabrication of lightweight d...
AbstractAdditive manufacturing has opened doors to many new technological developments that could no...
Additive manufacturing is allowing since several years the fabrication of metal lattice structures w...
The importance of lightweight structures in many fields of engineering is well known since long time...
Cellular material structures, such as honeycombs and lattice structures, enable unprecedented stiff...
The design of lightweight structures realized via additive manufacturing has been drawing considerab...
The design of lightweight structures realized via additive manufacturing has been drawing considera...
In the field of additive manufacturing, highly ordered cellular structures with repeating patterns ...
Additive manufacturing allows for light weight designs with controllable microstructures. In nature ...
The rapid evolution in additive manufacturing (AM) technology advocates a periodic assessment of the...
Cellular lattice structure offers high strength together with low density, high stiffness, good impa...
Additive Manufacturing (AM) technology provides new opportunities to automatically and flexibly fabr...
Periodic cellular solids offer an intuitive solution for lightweight designs as they provide the mea...
Additive manufacturing (AM) refers to a collection of manufacturing methods involving the incrementa...
One application of additive manufacturing is for fabrication of customized, light-weight material c...
With the rapid development of additive manufacturing (AM), high-quality fabrication of lightweight d...
AbstractAdditive manufacturing has opened doors to many new technological developments that could no...
Additive manufacturing is allowing since several years the fabrication of metal lattice structures w...
The importance of lightweight structures in many fields of engineering is well known since long time...
Cellular material structures, such as honeycombs and lattice structures, enable unprecedented stiff...
The design of lightweight structures realized via additive manufacturing has been drawing considerab...
The design of lightweight structures realized via additive manufacturing has been drawing considera...
In the field of additive manufacturing, highly ordered cellular structures with repeating patterns ...
Additive manufacturing allows for light weight designs with controllable microstructures. In nature ...
The rapid evolution in additive manufacturing (AM) technology advocates a periodic assessment of the...
Cellular lattice structure offers high strength together with low density, high stiffness, good impa...
Additive Manufacturing (AM) technology provides new opportunities to automatically and flexibly fabr...
Periodic cellular solids offer an intuitive solution for lightweight designs as they provide the mea...
Additive manufacturing (AM) refers to a collection of manufacturing methods involving the incrementa...
One application of additive manufacturing is for fabrication of customized, light-weight material c...
With the rapid development of additive manufacturing (AM), high-quality fabrication of lightweight d...
AbstractAdditive manufacturing has opened doors to many new technological developments that could no...
Additive manufacturing is allowing since several years the fabrication of metal lattice structures w...