A class of aperiodic honeycombs with tuneable mechanical properties (2024-04)
Moat, Richard J; Clarke, Daniel John; Carter, Francesca; Rust, Dan and Jowers, Iestyn
Applied Materials Today, 37, Article 102127
Identification of mechanically representative samples for aperiodic honeycombs (2024-03-05)
Clarke, Daniel John; Moat, Richard and Jowers, Iestyn
Materials Today Communications, 38, Article 108505
An isotropic zero Poisson's ratio metamaterial based on the aperiodic ‘hat’ monotile (2023-12)
Clarke, Daniel John; Carter, Francesca; Jowers, Iestyn and Moat, Richard James
Applied Materials Today, 35, Article 101959
A systematic numerical and experimental study into the mechanical properties of five honeycombs (2023-09)
Clarke, Daniel John; Imediegwu, Chikwesiri; Moat, Richard and Jowers, Iestyn
Composites Part B: Engineering, 264, Article 110895
Mechanical characterisation of novel aperiodic lattice structures (2023-05)
Imediegwu, Chikwesiri; Clarke, Daniel; Carter, Francesca; Grimm, Uwe; Jowers, Iestyn and Moat, Richard
Materials & Design, 229, Article 111922
Square-based honeycombs: a study of shape and performance (2024-07)
Jowers, Iestyn; Clarke, Daniel John and Moat, Richard J
In: Gero, John ed. Design Computing and Cognition’24
Publisher : Springer