Ficha personal - Miguel Molinos Pérez


Miguel Molinos Pérez
Email: Solicitar correo
Perfil en ORCID: 0000-0002-5073-4796
Otro enlace a Web de investigación: https://www.researchgate.net/profile/Miguel-Molinos-Perez

Grupo de Investigación: Mecánica de Materiales y Estructuras
Departamento/Unidad: Mecánica de Medios Continuos y Teoría de Estructuras
Situación profesional: Contrato Juan de la Cierva Formación

Participa en los siguientes proyectos/ayudas en la US:

  • Proyecto de investigación:
    • Plataforma predictiva para el diseño integrado de materiales basados en magnesio capaces de almacenar hidrógeno (PID2021-124869NB-I00 - Equipo Trabajo (Solicitud))
    • Estudio de materiales reforzados con grafeno para su aplicación en sistemas de almacenamiento de energía (REINSTOMAT) (P18-RT-1485 - Equipo Colaborador (altas/bajas))

  • Ayuda a la investigación:
    • Multiscale modeling of interfacial delamination of steel/adhesive interfaces by aqueous corrosion (N629092412079 - Otro Investigador)

Cobertura de la base de datos de proyectos, véase aqui


Publicaciones:

Capítulos en Libros
Pastor, Manuel, M. Tayyebi, Saeid, Yagüe, Ángel, Molinos, Miguel, M. Stickle, Miguel, et. al.:
Coupled depth integrated two phase SPH models for fast landslides. Pag. 89-125. En: ALERT Doctoral School 2020 Point based numerical methods in geomechanics. Alert. 2020

Publicaciones en Revistas
M.molinos, Ortiz, Michael, Ariza Moreno, Mª Pilar:
Thermalized and mixed meanfield ADP potentials for magnesium hydrides. En: Mechanics of Materials. 2024. Vol. 199. 10.1016/j.mechmat.2024.105175

Molinos, Miguel, Chandra, Bodhinanda, Martín Stickle, Miguel, Soga, Kenichi:
On the derivation of a component-free scheme for Lagrangian fluid-structure interaction problems. En: Acta Mechanica. 2023. Vol. 234. Pag. 1777-1809. https://doi.org/10.1007/s00707-022-03459-1

Moussavi Tayyebi, Saeid, Pastor, Manuel, Martín Stickle, Miguel, Yagüe, Ángel, Manzanal, Diego, et. al.:
Two-phase SPH modelling of a real debris avalanche and analysis of its impact on bottom drainage screens. En: Landslides. 2022. Vol. 19. Pag. 421-435. https://doi.org/10.1007/s10346-021-01772-9

Pastor, Manuel, M. Tayyebi, Saeid, M. Stickle, Miguel, Molinos, Miguel, Yague, Angel, et. al.:
An Arbitrary Lagrangian Eulerian (ALE) finite difference (FD)-SPH depth integrated model for pore pressure evolution on landslides over erodible terrains. En: International Journal for Numerical and Analytical Methods in Geomechanics. 2022. Vol. 46. Núm. 6. Pag. 1127-1153. https://doi.org/10.1002/nag.3339

Navas, Pedro, Molinos, Miguel, M. Stickle, Miguel, Manzanal, Diego, Yagüe, Ángel, et. al.:
Explicit meshfree u-pw solution of the dynamic Biot formulation at large strain. En: Computational Particle Mechanics. 2021. Vol. 9. Pag. 655-671. https://doi.org/10.1007/s40571-021-00436-8

Molinos, Miguel, M. Stickle, Miguel, Navas, Pedro, Yagüe, Ángel, Manzanal, Diego, et. al.:
Towards A Local Maximum-entropy Material Point Method At Finite Strain Within A B-free Approach. En: International Journal for Numerical Methods in Engineering. 2021. Vol. 122. Pag. 5594-5625. https://doi.org/10.1002/nme.6765

Molinos, Miguel, Navas, Pedro, Manzanal, Diego, Pastor, Manuel:
Local Maximum Entropy Material Point Method Applied To Quasi-brittle Fracture. En: Engineering Fracture Mechanics. 2021. Vol. 241. https://doi.org/10.1016/j.engfracmech.2020.107394

Molinos, Miguel, Navas, Pedro, Pastor, Manuel, M. Stickle, Miguel:
On The Dynamic Assessment Of The Local-maximum Entropy Material Point Method Through An Explicit Predictor Corrector Scheme. En: Computer Methods in Applied Mechanics and Engineering. 2021. Vol. 374. Núm. 1. https://doi.org/10.1016/j.cma.2020.113512

Martin Stickle, Miguel, Molinos, Miguel, Navas Almodovar, Pedro, Yagüe, Ángel, Manzanal, Diego, et. al.:
A component-free Lagrangian finite element formulation for large strain elastodynamics. En: Computational Mechanics. 2021. Vol. 69. Pag. 639-660. https://doi.org/10.1007/s00466-021-02107-0

Pastor, Manuel, M. Tayyebi, Saeid, M. Stickle, Miguel, Yagüe, Ángel, Molinos, Miguel, et. al.:
A Depth Integrated, Coupled, Two-phase Model For Debris Flow Propagation. En: Acta Geotechnica. 2020. Vol. 16. Pag. 2409-2433. https://doi.org/10.1007/s11440-020-01114-4

Navas, Pedro, Pastor, Manuel, Yagüe, Ángel, M. Stickle, Miguel, Manzanal, Diego, et. al.:
Fluid Stabilization Of The u-w Biot's Formulation At Large Strain. En: International Journal for Numerical and Analytical Methods in Geomechanics. 2020. Vol. 45. Núm. 3. Pag. 336-352. https://doi.org/10.1002/nag.3158

Navas, Pedro, Manzanal, Diego, M. Stickle, Miguel, Pastor, Manuel, Molinos, Miguel:
Meshfree Modeling of Cyclic Behavior of Sands Within Large Strain Generalized Plasticity Framework. En: Computers and Geotechnics. 2020. Vol. 122. https://doi.org/10.1016/j.compgeo.2020.103538

Aportaciones a Congresos
Pastor, Manuel, M. Tayyevi, Saeid, Hernandez, Andrei, Gao, Lingang, M. Stickle, Miguel, et. al.:
A general two phase depth integrated model considering pore water pressure and dewatering. Comunicación en congreso. 8th International Conference on Debris Flow Hazard Mitigation. Politecnico di Torino. 2023

Chandra, Bodhinanda, Hashimoto, Ryota, Molinos, Miguel, Soga, Kenichi:
High-Performance, High-Order Implicit Material Point Method for Progressive Levee Failure Simulations. Comunicación en congreso. Geo-Congress 2023. California, Los Ángeles (EEUU). 2023

M.molinos, Ortiz, Michael, Ariza Moreno, Mª Pilar:
Meanfield atomistic model for hydrogen diffusion on magnesium alloys. Poster en Congreso. Spanish Theoretical and Applied Mechanics Society. - Toledo, España. 2023

M.molinos, Ortiz, Michael, Ariza Moreno, Mª Pilar:
Atomistic-scale model for the numerical analysis of the hydrogen diffusion on Magnesium alloys. Comunicación en congreso. Encuentro Español del Grupo de Fractura 2023. Gijón (Asturias). 2023

Molinos, Miguel:
The Local-Maximum Entropy Material Point Method. Ponencia en Congreso. 33th Alert Geomaterials Workshop. Aussois, - Aix-en-Provence, - Aix-en-Provence, Francia, France. 2022

Molinos, Miguel:
A B-free local max-ent Material Point Method for fluid-saturated porous media at large strain. Ponencia en Congreso. XVI International Conference on Computational Plasticity, Fundamentals and Applications. . Barcelona, , España. 2021

Vicerrectorado de Investigación. Universidad de Sevilla. Pabellón de Brasil. Paseo de las Delicias s/n. Sevilla