Lattice structures are regarded as excellent candidates for use in lightweight energy absorbing applications, such as crash protection. In this paper we investigate the crushing behaviour, mechanical properties and energy absorption of lattices made by an additive manufacturing (AM) process. Two types of lattice were examined; body-centred-cubic (BCC) and a reinforced variant called BCCz. The lattices were subject to compressive loads in two orthogonal directions, allowing an assessment of their mechanical anisotropy to be made. We also examined functionally graded versions of these lattices, which featured a density gradient along one direction. The graded structures exhibited distinct crushing behaviour, with a sequential collapse of cell...
This is the author accepted manuscript. The final version is available from Elsevier via the DOI in ...
In this paper we present a numerical investigation into surface-based lattice structures with the ai...
Lattice structures fabricated by Additive Manufacturing (AM) processes are promising for many applic...
Lattice structures are regarded as excellent candidates for use in lightweight energy absorbing appl...
Lattice structures are excellent candidates for lightweight, energy absorbing applications such as p...
Latticing has become a common design practice in additive manufacturing (AM) and represents a key li...
Architectured structures, particularly functionally graded lattices, are receiving much attention in...
Lightweight and stiff lattice structures are good energy absorbers. This study evaluates the energy...
Lattice structures, whose manufacturing has been enabled by additive technologies, are gaining growi...
Cellular solids are characteristically excellent energy absorbers due to their capacity to store lar...
Metal components with applications across a range of industrial sectors can be manufactured by selec...
In this work, an experimental and numerical analysis of a lattice structure for energy absorption wa...
This paper aims to evaluate the potential use of an innovative functionally graded lattice-filled co...
Lattice structures offer the potential to relatively easily engineer specific (meso-scale properties...
In this work, three novel re-entrant plate lattice structures (LSs) have been designed by transformi...
This is the author accepted manuscript. The final version is available from Elsevier via the DOI in ...
In this paper we present a numerical investigation into surface-based lattice structures with the ai...
Lattice structures fabricated by Additive Manufacturing (AM) processes are promising for many applic...
Lattice structures are regarded as excellent candidates for use in lightweight energy absorbing appl...
Lattice structures are excellent candidates for lightweight, energy absorbing applications such as p...
Latticing has become a common design practice in additive manufacturing (AM) and represents a key li...
Architectured structures, particularly functionally graded lattices, are receiving much attention in...
Lightweight and stiff lattice structures are good energy absorbers. This study evaluates the energy...
Lattice structures, whose manufacturing has been enabled by additive technologies, are gaining growi...
Cellular solids are characteristically excellent energy absorbers due to their capacity to store lar...
Metal components with applications across a range of industrial sectors can be manufactured by selec...
In this work, an experimental and numerical analysis of a lattice structure for energy absorption wa...
This paper aims to evaluate the potential use of an innovative functionally graded lattice-filled co...
Lattice structures offer the potential to relatively easily engineer specific (meso-scale properties...
In this work, three novel re-entrant plate lattice structures (LSs) have been designed by transformi...
This is the author accepted manuscript. The final version is available from Elsevier via the DOI in ...
In this paper we present a numerical investigation into surface-based lattice structures with the ai...
Lattice structures fabricated by Additive Manufacturing (AM) processes are promising for many applic...