Follow
Juan Manuel Rodríguez Prieto
Juan Manuel Rodríguez Prieto
Universidad EAFIT
Verified email at eafit.edu.co
Title
Cited by
Cited by
Year
The particle finite element method (PFEM) in thermo‐mechanical problems
JM Rodriguez, JM Carbonell, JC Cante, J Oliver
International journal for numerical methods in engineering 107 (9), 733-785, 2016
732016
Numerical methods for the modelling of chip formation
JM Rodríguez, JM Carbonell, P Jonsen
Archives of Computational Methods in Engineering 27, 387-412, 2020
572020
Continuous chip formation in metal cutting processes using the Particle Finite Element Method (PFEM)
JM Rodríguez, JM Carbonell, JC Cante, J Oliver
International Journal of Solids and Structures 120, 81-102, 2017
572017
Simulation of metal cutting using the particle finite-element method and a physically based plasticity model
JM Rodríguez, P Jonsén, A Svoboda
Computational Particle Mechanics 4, 35-51, 2017
382017
The particle finite element method for transient granular material flow: modelling and validation
S Larsson, JM Rodríguez Prieto, G Gustafsson, HÅ Häggblad, P Jonsén
Computational Particle Mechanics 8, 135-155, 2021
222021
Generation of segmental chips in metal cutting modeled with the PFEM
JM Rodriguez Prieto, JM Carbonell, JC Cante, J Oliver, P Jonsen
Computational Mechanics 61, 639-655, 2018
192018
A novel particle-based approach for modeling a wet vertical stirred media mill
S Larsson, JM Rodríguez Prieto, H Heiskari, P Jonsén
Minerals 11 (1), 55, 2021
172021
Numerical modeling of metal cutting processes using the particle finite element method (PFEM)
JM Rodríguez
Universitat Politècnica de Catalunya (UPC), Barcelona, 2014
162014
Modelling 3D metal cutting problems with the particle finite element method
JM Carbonell, JM Rodríguez, E Oñate
Computational Mechanics 66, 603-624, 2020
152020
A sensibility analysis to geometric and cutting conditions using the particle finite element method (PFEM)
J Rodríguez, P Arrazola, J Cante, A Kortabarria, J Oliver
Procedia CIRP 8, 105-110, 2013
142013
Discretization approaches to model orthogonal cutting with lagrangian, arbitrary lagrangian eulerian, particle finite element method and smooth particle hydrodynamics formulations
P Sridhar, JMR Prieto, KM de Payrebrune
Procedia CIRP 93, 1496-1501, 2020
132020
Implicit or explicit time integration schemes in the PFEM modeling of metal cutting processes
JM Rodriguez, S Larsson, JM Carbonell, P Jonsén
Computational Particle Mechanics, 1-25, 2022
122022
On the numerical modelling of machining processes via the Particle finite Element method (PFEM)
JM Rodríguez, JCC Terán, J Oliver
International Center for Numerical Methods in Engineering, 2015
102015
Dislocation density based flow stress model applied to the PFEM simulation of orthogonal cutting processes of Ti-6Al-4V
JM Rodríguez, S Larsson, JM Carbonell, P Jonsén
Materials 13 (8), 1979, 2020
92020
Experimental and PFEM-simulations of residual stresses from turning tests of a cylindrical Ti-6Al-4V shaft
J Holmberg, JMR Prieto, J Berglund, A Sveboda, P Jonsén
Procedia CIRP 71, 144-149, 2018
82018
Dislocation density based material model applied in PFEM-simulation of metal cutting
JM Rodríguez, P Jonsén, A Svoboda
Procedia Cirp 58, 193-197, 2017
82017
2D linear finite element simulation of laser metal heating for digital twins
D Montoya-Zapata, JM Rodríguez, A Moreno, J Posada, O Ruiz-Salguero
International Journal for Simulation and Multidisciplinary Design …, 2021
52021
A particle finite element method for machining simulations
JM Rodriguez Prieto, P Jonsén, A Svoboda
VII European Congress on Computational Methods in Applied Sciences and …, 2016
52016
Modeling grinding processes—Mesh or mesh-free methods, 2D or 3D approach?
P Sridhar, JM Rodríguez Prieto, KM de Payrebrune
Journal of Manufacturing and Materials Processing 6 (5), 120, 2022
42022
A particle finite element method for additive manufacturing simulations
D Zhang, JM Rodriguez, X Ye, R Müller
Journal of Computing and Information Science in Engineering 23 (5), 051008, 2023
22023
The system can't perform the operation now. Try again later.
Articles 1–20