Silvestre T Pinho
Affiliations: | Imperial College London, London, England, United Kingdom |
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Publications
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Häsä R, Pinho ST. (2020) Bio-inspired armour: CFRP with scales for perforation resistance Materials Letters. 273: 127966 |
Bullegas G, Lamela JM, Pimenta S, et al. (2020) On the role of dynamic stress concentrations and fracture mechanics in the longitudinal tensile failure of fibre-reinforced composites Engineering Fracture Mechanics. 228: 106920 |
Kocaman ES, Chen BY, Pinho ST. (2020) A floating connector element formulation for multi-level modelling of composite structures Composite Structures. 251: 112532 |
Pascoe JA, Pimenta S, Pinho ST. (2020) The effect of tab orientation on the toughening mechanisms produced by interlocked interlaminar thin-ply CFRP reinforcements Composite Structures. 238: 111932 |
Mencattelli L, Pinho ST. (2020) Herringbone-Bouligand CFRP structures: A new tailorable damage-tolerant solution for damage containment and reduced delaminations Composites Science and Technology. 190: 108047 |
Matos MAS, Tagarielli VL, Pinho ST. (2020) On the electrical conductivity of composites with a polymeric matrix and a non-uniform concentration of carbon nanotubes Composites Science and Technology. 188: 108003 |
Mencattelli L, Pinho ST. (2020) Ultra-thin-ply CFRP Bouligand bio-inspired structures with enhanced load-bearing capacity, delayed catastrophic failure and high energy dissipation capability Composites Part a-Applied Science and Manufacturing. 129: 105655 |
Matos MAS, Pinho ST, Tagarielli VL. (2019) Predictions of the electrical conductivity of composites of polymers and carbon nanotubes by an artificial neural network Scripta Materialia. 166: 117-121 |
Häsä R, Pinho ST. (2019) Erratum to ‘Failure mechanisms of biological crossed-lamellar microstructures applied to synthetic high-performance fibre-reinforced composites’ [Journal of the Mechanics and Physics of Solids 125C (2019) 53–73] Journal of the Mechanics and Physics of Solids. 128: 255 |
Häsä R, Pinho ST. (2019) Failure mechanisms of biological crossed-lamellar microstructures applied to synthetic high-performance fibre-reinforced composites Journal of the Mechanics and Physics of Solids. 125: 53-73 |