AbstractA nonlinear elastic model for nets made up of two families of curved fibers is proposed. The net is planar prior to the deformation, but the equilibrium configuration that minimizes the total potential energy can be a surface in the three-dimensional space. This elastic surface accounts for the stretching, bending, and torsion of the constituent fibers regarded as a continuous distribution of Kirchhoff rods. A specific example of fiber arrangement, namely a cycloidal orthogonal pattern, is examined to illustrate the predictive abilities of the model and assess the limit of applicability of it. A numerical micro–macro-identification is performed with a model adopting a standard continuum deformable body at the level of scale of the f...
Acknowledgements H.N.G.W. is grateful for support for this work by the ONR (grant number N00014-15-1...
Advances in manufacturing and processing techniques allow us to create objects with ever increasing ...
© 2016 Informa UK Limited, trading as Taylor & Francis Group. Metamaterials are artificially enginee...
International audienceA three-dimensional continuum theory for fibrous mechanical metamaterials is p...
Aim of this work is the synthesis of auxetic structures using a topology optimization approach for m...
Mechanical metamaterials exhibit properties and functionalities that cannot be realized in conventio...
The design of metamaterials involves the optimal distribution of material inside a volume; therefore...
In this paper, we determine numerically a large class of equilibrium configurations of an elastic tw...
Auxetic materials exhibit material properties, which are usually not seen in nature. This type of ma...
Advances in additive manufacturing across scales have enabled random, periodic, or hierarchical trus...
Topology optimization is a demonstrated tool for the design of components with enhanced mechanical p...
Topology optimization is a powerful computational design tool that can be used to find optimal struc...
Mechanical metamaterials have been gaining much interest in the field of material design for their u...
© Copyright © 2020 O'Donnell, Towes, Groh and Chenchiah. Non-linear structural responses offer a ric...
Natural biomaterials, e.g., shells, bone, and wood, are typically comprised of hard and soft constit...
Acknowledgements H.N.G.W. is grateful for support for this work by the ONR (grant number N00014-15-1...
Advances in manufacturing and processing techniques allow us to create objects with ever increasing ...
© 2016 Informa UK Limited, trading as Taylor & Francis Group. Metamaterials are artificially enginee...
International audienceA three-dimensional continuum theory for fibrous mechanical metamaterials is p...
Aim of this work is the synthesis of auxetic structures using a topology optimization approach for m...
Mechanical metamaterials exhibit properties and functionalities that cannot be realized in conventio...
The design of metamaterials involves the optimal distribution of material inside a volume; therefore...
In this paper, we determine numerically a large class of equilibrium configurations of an elastic tw...
Auxetic materials exhibit material properties, which are usually not seen in nature. This type of ma...
Advances in additive manufacturing across scales have enabled random, periodic, or hierarchical trus...
Topology optimization is a demonstrated tool for the design of components with enhanced mechanical p...
Topology optimization is a powerful computational design tool that can be used to find optimal struc...
Mechanical metamaterials have been gaining much interest in the field of material design for their u...
© Copyright © 2020 O'Donnell, Towes, Groh and Chenchiah. Non-linear structural responses offer a ric...
Natural biomaterials, e.g., shells, bone, and wood, are typically comprised of hard and soft constit...
Acknowledgements H.N.G.W. is grateful for support for this work by the ONR (grant number N00014-15-1...
Advances in manufacturing and processing techniques allow us to create objects with ever increasing ...
© 2016 Informa UK Limited, trading as Taylor & Francis Group. Metamaterials are artificially enginee...