| Exact 3D boundary representation in finite element analysis based on Cartesian grids independent of the geometry O Marco, R Sevilla, Y Zhang, JJ Ródenas, M Tur International Journal for Numerical Methods in Engineering 103 (6), 445-468, 2015 | 76 | 2015 |
| An immersed boundary hierarchical B-spline method for flexoelectricity D Codony, O Marco, S Fernández-Méndez, I Arias Computer Methods in Applied Mechanics and Engineering 354, 750-782, 2019 | 48 | 2019 |
| A combined XFEM phase-field computational model for crack growth without remeshing A Muixí, O Marco, A Rodríguez-Ferran, S Fernández-Méndez Computational Mechanics 67, 231-249, 2021 | 43 | 2021 |
| Modeling flexoelectricity in soft dielectrics at finite deformation D Codony, P Gupta, O Marco, I Arias Journal of the Mechanics and Physics of Solids 146, 104182, 2021 | 35 | 2021 |
| Stabilized method of imposing Dirichlet boundary conditions using a recovered stress field M Tur, J Albelda, O Marco, JJ Ródenas Computer Methods in Applied Mechanics and Engineering 296, 352-375, 2015 | 25 | 2015 |
| Robust h-adaptive meshing strategy considering exact arbitrary CAD geometries in a Cartesian grid framework O Marco, JJ Ródenas, JM Navarro-Jiménez, M Tur Computers & Structures 193, 87-109, 2017 | 14 | 2017 |
| Direct creation of finite element models from medical images using Cartesian grids L Giovannelli, O Marco, JM Navarro, E Giner, JJ Ródenas Computational Vision and Medical Image Processing IV: VIPIMAGE 2013 167, 2013 | 10 | 2013 |
| Chapter 5-Assessment of problem-solving skills and capactiy for applying knowledge in practice in subjects related to mechanical and materials engineering J Carballeira, J Martínez-Casas, O Sahuquillo, A Sonseca, JL Suñer, ... Advances in Higher Education, 71-88, 2016 | 5 | 2016 |
| Structural shape optimization using Cartesian grids and automatic h-adaptive mesh projection O Marco, JJ Ródenas, J Albelda, E Nadal, M Tur Structural and Multidisciplinary Optimization, 1-21, 2017 | 4 | 2017 |
| An extension of shape sensitivity analysis to an immersed boundary method based on Cartesian grids O Marco, JJ Ródenas, FJ Fuenmayor, M Tur Computational Mechanics 62, 701-723, 2018 | 2 | 2018 |
| Assessment of problem-solving skills and capacity for applying knowledge in practice in subjects related to mechanical and materials engineering J Carballeira, J Martínez-Casas, O Sahuquillo, A Sonseca, JL Suñer, ... Advances in Higher Education, 71-88, 2016 | 2 | 2016 |
| Propuesta de evaluación de las competencias de comunicación oral y escrita en asignaturas de Ingeniería Mecánica y Ciencia de Materiales O Sahuquillo, A Sonseca, J Martínez, J Carballeira, FD Denia, ... In-Red 2015-Congreso de Innovación Educativa y Docencia en Red de la …, 2015 | 1 | 2015 |
| Efficient 3D Finite Element Analysis based on Cartesian grids considering exact CAD geometries O Marco, R Sevilla Cárdenas, Y Zhang, M Tur, JJ Ródenas CIMNE, 2015 | | 2015 |
| Numerical Simulation from Medical Images: Accurate Integration by Means of the Cartesian Grid Finite Element Method O Marco, R Sevilla, JJ Ródenas, M Tur Computational Modeling of Objects Presented in Images. Fundamentals, Methods …, 2014 | | 2014 |
| A locally adaptive phase-field model that tracks sharp cracks A Muixı, O Marco, S Fernández-Méndez, A Rodrıguez-Ferran | | |
| Dirichlet boundary conditions in sequences of Cartesian grids using a stabilized Lagrange multipliers technique based on recovered tractions JM Navarro-Jimenez, O Marco, M Tur, JJ Ródenas Adaptive Modeling and Simulation 2015, 99, 0 | | |
| Efficient integration within the 3D Cartesian grid Finite Element Method JM Navarro, R Sevilla, JJ Ródenas, M Tur, O Marco | | |
| H-adaptación de mallados Cartesianos basada en proyección entre geometrías en optimización de forma estructural O Marco, JJ Ródenas, J Albelda, M Tur | | |
| H-adaptive mesh refinement process for structural optimization processes based on sensitivity analysis O Marco, JJ Ródenas, E Nadal, J Albelda, M Tur, FJ Fuenmayor | | |
