A computational framework for polyconvex large strain elasticity J Bonet, AJ Gil, R Ortigosa Computer Methods in Applied Mechanics and Engineering 283, 1061-1094, 2015 | 153 | 2015 |
A first order hyperbolic framework for large strain computational solid dynamics. Part I: Total Lagrangian isothermal elasticity J Bonet, AJ Gil, CH Lee, M Aguirre, R Ortigosa Computer Methods in Applied Mechanics and Engineering 283, 689-732, 2015 | 107 | 2015 |
A new framework for large strain electromechanics based on convex multi-variable strain energies: variational formulation and material characterisation AJ Gil, R Ortigosa Computer Methods in Applied Mechanics and Engineering 302, 293-328, 2016 | 90 | 2016 |
On a tensor cross product based formulation of large strain solid mechanics J Bonet, AJ Gil, R Ortigosa International Journal of Solids and Structures 84, 49-63, 2016 | 84 | 2016 |
A framework for polyconvex large strain phase-field methods to fracture C Hesch, AJ Gil, R Ortigosa, M Dittmann, C Bilgen, P Betsch, M Franke, ... Computer Methods in Applied Mechanics and Engineering 317, 649-683, 2017 | 79 | 2017 |
A new framework for large strain electromechanics based on convex multi-variable strain energies: Finite element discretisation and computational implementation R Ortigosa, AJ Gil Computer Methods in Applied Mechanics and Engineering 302, 329-360, 2016 | 76 | 2016 |
A first order hyperbolic framework for large strain computational solid dynamics. Part II: Total Lagrangian compressible, nearly incompressible and truly incompressible elasticity AJ Gil, CH Lee, J Bonet, R Ortigosa Computer Methods in Applied Mechanics and Engineering 300, 146-181, 2016 | 71 | 2016 |
A new framework for large strain electromechanics based on convex multi-variable strain energies: Conservation laws, hyperbolicity and extension to electro-magneto-mechanics R Ortigosa, AJ Gil Computer Methods in Applied Mechanics and Engineering 309, 202-242, 2016 | 69 | 2016 |
A high performance data parallel tensor contraction framework: Application to coupled electro-mechanics R Poya, AJ Gil, R Ortigosa Computer Physics Communications 216, 35-52, 2017 | 41 | 2017 |
Finite electro-elasticity with physics-augmented neural networks DK Klein, R Ortigosa, J Martínez-Frutos, O Weeger Computer Methods in Applied Mechanics and Engineering 400, 115501, 2022 | 40 | 2022 |
A curvilinear high order finite element framework for electromechanics: From linearised electro-elasticity to massively deformable dielectric elastomers R Poya, AJ Gil, R Ortigosa, R Sevilla, J Bonet, WA Wall Computer Methods in Applied Mechanics and Engineering 329, 75-117, 2018 | 37 | 2018 |
A stabilisation approach for topology optimisation of hyperelastic structures with the SIMP method R Ortigosa, D Ruiz, AJ Gil, A Donoso, JC Bellido Computer Methods in Applied Mechanics and Engineering 364, 112924, 2020 | 36 | 2020 |
On a family of numerical models for couple stress based flexoelectricity for continua and beams R Poya, AJ Gil, R Ortigosa, R Palma Journal of the Mechanics and Physics of Solids 125, 613-652, 2019 | 35 | 2019 |
A computational framework for polyconvex large strain elasticity for geometrically exact beam theory R Ortigosa, AJ Gil, J Bonet, C Hesch Computational mechanics 57, 277-303, 2016 | 35 | 2016 |
A computational framework for large strain nearly and truly incompressible electromechanics based on convex multi-variable strain energies R Ortigosa, AJ Gil, CH Lee Computer Methods in Applied Mechanics and Engineering 310, 297-334, 2016 | 34 | 2016 |
An energy–momentum time integration scheme based on a convex multi-variable framework for non-linear electro-elastodynamics R Ortigosa, M Franke, A Janz, AJ Gil, P Betsch Computer Methods in Applied Mechanics and Engineering 339, 1-35, 2018 | 27 | 2018 |
A computational framework for incompressible electromechanics based on convex multi-variable strain energies for geometrically exact shell theory R Ortigosa, AJ Gil Computer Methods in Applied Mechanics and Engineering 317, 792-816, 2017 | 24 | 2017 |
A new stabilisation approach for level-set based topology optimisation of hyperelastic materials R Ortigosa, J Martínez-Frutos, AJ Gil, D Herrero-Pérez Structural and Multidisciplinary Optimization 60, 2343-2371, 2019 | 22 | 2019 |
Risk-averse approach for topology optimization of fail-safe structures using the level-set method J Martínez-Frutos, R Ortigosa Computational Mechanics 68 (5), 1039-1061, 2021 | 19 | 2021 |
In-silico design of electrode meso-architecture for shape morphing dielectric elastomers J Martínez-Frutos, R Ortigosa, AJ Gil Journal of the Mechanics and Physics of Solids 157, 104594, 2021 | 17 | 2021 |