Nonlinear Solid Mechanics for Finite Element Analysis: Dynamics J Bonet, AJ Gil, RD Wood Cambridge University Press, 2021 | 167 | 2021 |
A computational framework for polyconvex large strain elasticity J Bonet, AJ Gil, R Ortigosa Computer Methods in Applied Mechanics and Engineering 283, 1061-1094, 2014 | 151 | 2014 |
The bending of single layer graphene sheets: the lattice versus continuum approach F Scarpa, S Adhikari, AJ Gil, C Remillat Nanotechnology 21 (12), 125702, 2010 | 142 | 2010 |
Development of a cell centred upwind finite volume algorithm for a new conservation law formulation in structural dynamics CH Lee, AJ Gil, J Bonet Computers & Structures 118, 13-38, 2013 | 115 | 2013 |
Development of a finite volume algorithm for a new conservation law formulation in structural dynamics CH Lee, AJ Gil, J Bonet Proceedings of the 19th UK conference of the association for computational …, 2011 | 115* | 2011 |
Simulating superplastic forming J Bonet, A Gil, RD Wood, R Said, RV Curtis Computer methods in applied mechanics and engineering 195 (48-49), 6580-6603, 2006 | 110 | 2006 |
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, 2014 | 107 | 2014 |
Partitioned block-Gauss–Seidel coupling for dynamic fluid–structure interaction C Wood, AJ Gil, O Hassan, J Bonet Computers & structures 88 (23-24), 1367-1382, 2010 | 96 | 2010 |
A vertex centred Finite Volume Jameson–Schmidt–Turkel (JST) algorithm for a mixed conservation formulation in solid dynamics M Aguirre, AJ Gil, J Bonet, A Arranz Carreño Journal of Computational Physics 259, 672-699, 2014 | 91 | 2014 |
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 | 88 | 2016 |
A stabilised Petrov–Galerkin formulation for linear tetrahedral elements in compressible, nearly incompressible and truly incompressible fast dynamics AJ Gil, CH Lee, J Bonet, M Aguirre Computer Methods in Applied Mechanics and Engineering 276, 659-690, 2014 | 86 | 2014 |
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 | 82 | 2016 |
The immersed structural potential method for haemodynamic applications AJ Gil, A Arranz Carreño, J Bonet, O Hassan Journal of Computational Physics 229 (22), 8613-8641, 2010 | 81 | 2010 |
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 |
Development of a stabilised Petrov–Galerkin formulation for conservation laws in Lagrangian fast solid dynamics CH Lee, AJ Gil, J Bonet Computer Methods in Applied Mechanics and Engineering 268, 40-64, 2014 | 74 | 2014 |
A new Jameson–Schmidt–Turkel Smooth Particle Hydrodynamics algorithm for large strain explicit fast dynamics CH Lee, AJ Gil, G Greto, S Kulasegaram, J Bonet Computer Methods in Applied Mechanics and Engineering 311, 71-111, 2016 | 73 | 2016 |
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 | 73 | 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 | 70 | 2016 |
An upwind vertex centred Finite Volume solver for Lagrangian solid dynamics M Aguirre, AJ Gil, J Bonet, CH Lee Journal of Computational Physics 300, 387-422, 2015 | 68 | 2015 |
A new framework for large strain electromechanics based on convex multi-variable strain energies: Conservation laws and hyperbolicity and extension to electro-magnetomechanics R Ortigosa, AJ Gil Computer Methods in Applied Mechanics and Engineering 309, 202-242, 2016 | 66 | 2016 |