Metal components with applications across a range of industrial sectors can be manufactured by selective laser melting (SLM). A particular strength of SLM is its ability to manufacture components incorporating periodic lattice structures not realisable by conventional manufacturing processes. This enables the production of advanced, functionally graded, components. However, for these designs to be successful, the relationships between lattice geometry and performance must be established. We do so here by examining the mechanical behaviour of uniform and graded density SLM Al-Si10-Mg lattices under quasistatic loading. As-built lattices underwent brittle collapse and non-ideal deformation behaviour. The application of a microstructure-alteri...
Significant weight savings in parts can be made through the use of additive manufacture (AM), a proc...
Selective laser melting (SLM) is a widely used additive manufacturing technique that effectively man...
Additive Manufacture (AM) enables the fabrication of highly complex lattice structures with exceptio...
Metal components with applications across a range of industrial sectors can be manufactured by selec...
Additive manufacturing (AM), particularly Selective Laser Melting (SLM) has enabled development of l...
Lattice structures are lightweight materials very interesting for their mechanical performances. Tha...
The use of additive manufacturing allows the production of complex designs, including metallic latti...
Selective laser melting (SLM) of aluminium is of research interest because of its potential benefits...
Lattice structures fabricated by Additive Manufacturing (AM) processes are promising for many applic...
More commonly known as 3D printing, the additive manufacturing (AM) technologies attract increasing ...
Additive manufacture (AM) enables innovative structural design, including the fabrication of complex...
The selective laser melting (SLM) of aluminium alloys is of great current interest at both the indu...
Nowadays, additive manufacturing (AM) of metallic parts is increasingly considered as a viable manuf...
Lattice structures are excellent candidates for lightweight, energy absorbing applications such as p...
Lattice structures are regarded as excellent candidates for use in lightweight energy absorbing appl...
Significant weight savings in parts can be made through the use of additive manufacture (AM), a proc...
Selective laser melting (SLM) is a widely used additive manufacturing technique that effectively man...
Additive Manufacture (AM) enables the fabrication of highly complex lattice structures with exceptio...
Metal components with applications across a range of industrial sectors can be manufactured by selec...
Additive manufacturing (AM), particularly Selective Laser Melting (SLM) has enabled development of l...
Lattice structures are lightweight materials very interesting for their mechanical performances. Tha...
The use of additive manufacturing allows the production of complex designs, including metallic latti...
Selective laser melting (SLM) of aluminium is of research interest because of its potential benefits...
Lattice structures fabricated by Additive Manufacturing (AM) processes are promising for many applic...
More commonly known as 3D printing, the additive manufacturing (AM) technologies attract increasing ...
Additive manufacture (AM) enables innovative structural design, including the fabrication of complex...
The selective laser melting (SLM) of aluminium alloys is of great current interest at both the indu...
Nowadays, additive manufacturing (AM) of metallic parts is increasingly considered as a viable manuf...
Lattice structures are excellent candidates for lightweight, energy absorbing applications such as p...
Lattice structures are regarded as excellent candidates for use in lightweight energy absorbing appl...
Significant weight savings in parts can be made through the use of additive manufacture (AM), a proc...
Selective laser melting (SLM) is a widely used additive manufacturing technique that effectively man...
Additive Manufacture (AM) enables the fabrication of highly complex lattice structures with exceptio...