Lattice structures offer the potential to relatively easily engineer specific (meso-scale properties (cell level)), to produce desirable macro-scale material properties for a wide variety of engineering applications including wave filters, blast and impact protection systems, thermal insulation, structural aircraft and vehicle components, and body implants. The work presented here focuses on characterising the quasi-static and, in particular, the dynamic load-deformation behaviour of lattice samples. First, cubic, diamond and re-entrant cube lattice structures were tested under quasi-static conditions to investigate failure process and stress–strain response of such materials. Following the quasi-static tests, Hopkinson pressure bar (HPB) t...
Cellular solids are characteristically excellent energy absorbers due to their capacity to store lar...
High-energy absorption and light-weightiness are two critical properties for impact protection in th...
The collapse strength is analyzed for periodic planar lattices under uniaxial compression. In part 1...
An experimental study of the stress–strain behaviour of titanium alloy (Ti6Al4V) lattice structures ...
Lightweight and stiff lattice structures are good energy absorbers. This study evaluates the energy...
Lattice structures are promising design solutions for lightweight components in many industrial fiel...
Lattice structures are regarded as excellent candidates for use in lightweight energy absorbing appl...
Lattice structures have shown potential for efficient protection against dynamic loading events, esp...
Innovative additive manufacturing processes open new design opportunities, in the field of periodic ...
Lattice structures are a class of architected cellular materials composed of similar unit cells with...
Several additively manufactured lattice designs and configurations were evaluated under compression ...
Architected lattices can be designed to have tailorable functionalities by controlling their constit...
The mechanical response of additively-manufactured hollow truss lattices is experimentally investiga...
To create a more sustainable future for aviation, new, lighter-weight structures and materials will ...
Abstract Plate-lattices are a new emerging class of isotropic cellular solids that attain the theor...
Cellular solids are characteristically excellent energy absorbers due to their capacity to store lar...
High-energy absorption and light-weightiness are two critical properties for impact protection in th...
The collapse strength is analyzed for periodic planar lattices under uniaxial compression. In part 1...
An experimental study of the stress–strain behaviour of titanium alloy (Ti6Al4V) lattice structures ...
Lightweight and stiff lattice structures are good energy absorbers. This study evaluates the energy...
Lattice structures are promising design solutions for lightweight components in many industrial fiel...
Lattice structures are regarded as excellent candidates for use in lightweight energy absorbing appl...
Lattice structures have shown potential for efficient protection against dynamic loading events, esp...
Innovative additive manufacturing processes open new design opportunities, in the field of periodic ...
Lattice structures are a class of architected cellular materials composed of similar unit cells with...
Several additively manufactured lattice designs and configurations were evaluated under compression ...
Architected lattices can be designed to have tailorable functionalities by controlling their constit...
The mechanical response of additively-manufactured hollow truss lattices is experimentally investiga...
To create a more sustainable future for aviation, new, lighter-weight structures and materials will ...
Abstract Plate-lattices are a new emerging class of isotropic cellular solids that attain the theor...
Cellular solids are characteristically excellent energy absorbers due to their capacity to store lar...
High-energy absorption and light-weightiness are two critical properties for impact protection in th...
The collapse strength is analyzed for periodic planar lattices under uniaxial compression. In part 1...