| Data-driven modeling and learning in science and engineering FJ Montáns, F Chinesta, R Gómez-Bombarelli, JN Kutz Comptes Rendus Mécanique 347 (11), 845-855, 2019 | 274 | 2019 |
| Nonlinear ground response at Lotung LSST site RI Borja, HY Chao, FJ Montáns, CH Lin Journal of geotechnical and geoenvironmental engineering 125 (3), 187-197, 1999 | 192 | 1999 |
| The mechanical behavior of skin: Structures and models for the finite element analysis JM Benítez, FJ Montáns Computers & Structures 190, 75-107, 2017 | 172 | 2017 |
| Cam-Clay plasticity, Part IV: Implicit integration of anisotropic bounding surface model with nonlinear hyperelasticity and ellipsoidal loading function RI Borja, CH Lin, FJ Montáns Computer methods in applied mechanics and engineering 190 (26-27), 3293-3323, 2001 | 105 | 2001 |
| What-you-prescribe-is-what-you-get orthotropic hyperelasticity M Latorre, FJ Montáns Computational Mechanics 53, 1279-1298, 2014 | 91 | 2014 |
| Computational issues in large strain elasto‐plasticity: an algorithm for mixed hardening and plastic spin FJ Montáns, KJ Bathe International Journal for Numerical Methods in Engineering 63 (2), 159-196, 2005 | 86 | 2005 |
| WYPIWYG hyperelasticity for isotropic, compressible materials J Crespo, M Latorre, FJ Montáns Computational Mechanics 59, 73-92, 2017 | 84 | 2017 |
| Modeling large strain anisotropic elasto-plasticity with logarithmic strain and stress measures MÁ Caminero, FJ Montáns, KJ Bathe Computers & Structures 89 (11-12), 826-843, 2011 | 79 | 2011 |
| Anisotropic finite strain viscoelasticity based on the Sidoroff multiplicative decomposition and logarithmic strains M Latorre, FJ Montáns Computational Mechanics 56, 503-531, 2015 | 72 | 2015 |
| Extension of the Sussman–Bathe spline-based hyperelastic model to incompressible transversely isotropic materials M Latorre, FJ Montáns Computers & Structures 122, 13-26, 2013 | 69 | 2013 |
| On the interpretation of the logarithmic strain tensor in an arbitrary system of representation M Latorre, FJ Montáns International Journal of Solids and Structures 51 (7-8), 1507-1515, 2014 | 59 | 2014 |
| Fully anisotropic finite strain viscoelasticity based on a reverse multiplicative decomposition and logarithmic strains M Latorre, FJ Montáns Computers & Structures 163, 56-70, 2016 | 50 | 2016 |
| Stress and strain mapping tensors and general work-conjugacy in large strain continuum mechanics M Latorre, FJ Montáns Applied Mathematical Modelling 40 (5-6), 3938-3950, 2016 | 49 | 2016 |
| Understanding the need of the compression branch to characterize hyperelastic materials M Latorre, E De Rosa, FJ Montáns International Journal of Non-Linear Mechanics 89, 14-24, 2017 | 46 | 2017 |
| The relevance of transverse deformation effects in modeling soft biological tissues M Latorre, X Romero, FJ Montans International Journal of Solids and Structures 99, 57-70, 2016 | 42 | 2016 |
| Bounding surface plasticity model with extended Masing behavior FJ Montáns Computer methods in applied mechanics and engineering 182 (1-2), 135-162, 2000 | 42 | 2000 |
| SSI effects on ground motion at Lotung LSST site RI Borja, HY Chao, FJ Montáns, CH Lin Journal of geotechnical and geoenvironmental engineering 125 (9), 760-770, 1999 | 42 | 1999 |
| On the tension-compression switch of the Gasser–Ogden–Holzapfel model: Analysis and a new pre-integrated proposal M Latorre, FJ Montáns Journal of the mechanical behavior of biomedical materials 57, 175-189, 2016 | 41 | 2016 |
| Implicit algorithms for multilayer J2-plasticity FJ Montáns Computer methods in applied mechanics and engineering 189 (2), 673-700, 2000 | 40 | 2000 |
| Experimental data reduction for hyperelasticity M Latorre, FJ Montáns Computers & Structures 232, 105919, 2020 | 39 | 2020 |
Marcos LatorreCenter for Research and Innovation in Bioengineering (Ci2B), UPV在 ci2b.upv.es 的电子邮件经过验证
