Ettore Barbieri
Affiliations: | University of Oxford, Oxford, United Kingdom |
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Parents
Sign in to add mentor| Michele Meo | grad student | 2007-2010 | University of Bath (United Kingdom) |
| Nik Petrinic | post-doc | Oxford | |
| Vito L Tagarielli | post-doc | Oxford |
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Publications
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| Pradhan S, Ventura L, Agostinacchio F, et al. (2020) Biofunctional silk kirigami with engineered properties. Acs Applied Materials & Interfaces |
| Salussolia G, Barbieri E, Pugno NM, et al. (2020) Micromechanics of liquid-phase exfoliation of a layered 2D material: A hydrodynamic peeling model Journal of the Mechanics and Physics of Solids. 134: 103764 |
| Wang Y, Zhang Y, Terrill NJ, et al. (2019) Matrix-induced pre-strain and mineralization-dependent interfibrillar shear transfer enable 3D fibrillar deformation in a biogenic armour. Acta Biomaterialia |
| Barbieri E. (2019) Curvature Tuning in Folded Strips Through Hyperstatic Applied Rotations Frontiers in Materials. 6 |
| Barbieri E, Ventura L, Grignoli D, et al. (2019) A meshless method for the nonlinear von Kármán plate with multiple folds of complex shape: A bridge between cracks and folds Computational Mechanics. 64: 769-787 |
| Carleo F, Barbieri E, Whear R, et al. (2018) Limitations of Viscoelastic Constitutive Models for Carbon-Black Reinforced Rubber in Medium Dynamic Strains and Medium Strain Rates. Polymers. 10 |
| Elsharkawy S, Al-Jawad M, Pantano MF, et al. (2018) Protein disorder-order interplay to guide the growth of hierarchical mineralized structures. Nature Communications. 9: 2145 |
| Ongaro F, Barbieri E, Pugno NM. (2018) Mechanics of mutable hierarchical composite cellular materials Mechanics of Materials. 124: 80-99 |
| Falco PD, Barbieri E, Pugno N, et al. (2017) Staggered Fibrils and Damageable Interfaces Lead Concurrently and Independently to Hysteretic Energy Absorption and Inhomogeneous Strain Fields in Cyclically Loaded Antler Bone Acs Biomaterials Science & Engineering. 3: 2779-2787 |
| Zhang Y, De Falco P, Wang Y, et al. (2017) Towards in situ determination of 3D strain and reorientation in the interpenetrating nanofibre networks of cuticle. Nanoscale |