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Grenoble INP
Science et ingénierie des matériaux et des procédés

M. Marc Fivel

Directeur de Recherche CNRS


SIMaP-GPM2 101 Rue de la Physique BP46 38402 St Martin d'Heres cedex

  • Fax : 0476826382

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Mécanique des solides et des fluides (PHELMA 1)
Méthodes numériques (PHELMA 2)
Dislocations and irradiation defects (Master MANUEN)

Dynamique des dislocations discrètes
Plasticité cristalline
Erosion de cavitation
Interaction fluide/structure
Smooth Particles Hydrodynamics

Discrete dislocation dynamics simulations: application to multiscale modelling of crystal plasticity (

Crystal sheared by Frank-Read loop mechanismThis research activity deals with multiscale modelling of crystal plasticity with a special focus on discrete dislocation simulations (DD code). In the DD code developed at SIMaP, the dislocation lines are simulated as 3D line defects embedded in an elastic continuum medium. The scale of a typical simulation box being of the order of 10 µm³, the DD code is ideally located between the atomistic simulations of molecular dynamics and the finite element methods used to treat the continuum mechanics. DD simulations are thus an interesting numerical tool to use when information from the lowest scale has to be accounted for at the continuum level.

Cavitation erosion simulations:

The objective of this activity developed in collaboration with LEGI, is to compute mass loss of materials repeatedly impacted by bubble collapses. During the past few years we have been addressing this issue in three ways.
  • (i) Inverse FEM modelling: A specimen was exposed to cavitation during a few minutes and the individual pits printed on the surface were measured. An inverse FEM analysis is then conducted in order to find the pressure loads that could generate similar pits. This gives an estimation of the flow aggressiveness.
  • (ii) CFD/FEM coupling: Computional Fluid Dynamics and Finite Element codes are coupled in order to compute the damage cumulated in the solid after the collapse of many bubbles in vicinity of the liquid/solid interface.
  • (iii) SPH simulations: Smoothed Particle Hydrodynamics simulations are developed in order to account in a single code for both a compressive model for the fluid part and a elasto-visco-plastic damage model for the solid part.

Activités / CV

2009 - Directeur de Recherche CNRS au SIMaP-GPM2
2008 - Habilitation à Diriger les Recherche en Mécanique de l'Université Joseph Fourier
1998 - Chargé de Recherche CNRS au GPM2
1997 - Doctorat de Mécanique de Grenoble INP
1993 - Agrégation de Mécanique à l'Ecole Normale Supérieure de Cachan

Latest publications

S. Gao, M. Fivel, A. Ma et A. Hartmaier, 3D discrete dislocation dynamics study of creep behavior in Ni-base single crystal superalloys by a combined dislocation climb and diffusion model, Journal of the Physics and Mechanics of Solids, 102, pp. 209-223, (2017).

B. Amin-Ahmadi, D. Connétable, M. Fivel, D. Tanguy, R. Delmelle, S. Turner, L. Malet, S. Godet, T. Pardoen, J. Proost, D. Schryvers, H. Idrissi, Dislocation/hydrogen interaction mechanisms in hybrided nanocrystalline palladium film, Acta Materialia, 111, pp.253-261, (2016).

C. Robertson, G.V. Prasad Reddy, C. Déprés and M. Fivel, Effect of grain disorientation on early fatigue crack propagation in FCC polycrystals: dislocation dynamics simulations and corresponding experimental validation, The Indian Institute of Metals, 69(2), pp. 477-481, (2016).

H.J. Chang, N. Cordero, C. Déprés, M. Fivel and S. Forest, Micromorphic crystal plasticity versus discrete dislocation dynamics analysis of multilayer pile-up hardening in a narrow channel, Archive of Applied Mechanics, 86(1), pp. 21-38, (2016).

S.C. Roy, J.-P. Franc and M. Fivel, Determination of cavitation load spectra – Part 2: Dynamic finite element approach, Wear, 344-345, pp. 120-129, (2015).

S.C. Roy, J.-P. Franc, C. Pellone and  M. Fivel, Determination of cavitation load spectra – Part 1: Static finite element approach, Wear, 344-345, pp.110-119, (2015).

S.C Roy, J.-P. Franc and M. Fivel, Cavitation erosion: Using the target material as a pressure sensor, Journal of Applied Physics, 118(16), 164905, (2015).

S. Gao, M.K. Rajendran, M. Fivel, A. Ma, O. Shchyglo, A. Hartmaier and I. Steinbach, Primary combination of phase-field and discrete dislocation dynamics methods for investigating athermal plastic deformation in various realistic Ni-base single crystal superalloy microstructures, Modelling and Simulation in Materials Science and Engineering, 23(7), 075003, (2015).

C. Déprés, C. Robertson and M. Fivel, 3D Discrete dislocation dynamics investigations of fatigue crack initiation and propagation, Aerospace Lab Journal, AL09-01, (2015).

K. Gururaj, C. Robertson and M. Fivel, Post-irradiation plastic deformation in bcc Fe grains investigated by means of 3D dislocation dynamics simulations, Journal of Nuclear Materials, 459, pp. 194-204, (2015).

K. Gururaj, C. Robertson and M. Fivel, Channel formation and multiplication in irradiated FCC metals: a 3D dislocation dynamics investigation, Philosophical Magazine, 95(12), pp. 1368-1389, (2015).

T. Deplancke, O. Lame, J.-Y. Cavaille, M. Fivel, J.-P. Franc and M. Rondet, Outstanding cavitation erosion resistance of Ultra High Molecular Weight Polyethylene (UHMWPE) coatings, Wear , 328-329, pp.301-308, (2015).

M. Fivel, J.-P. Franc and S.C. Roy, Towards numerical prediction of cavitation erosion, Interface Focus, 5(5), 20150013, (2015).

Y. Paquette, C. Pellone, M. Fivel, G. Ghigliotti, E. Johnsen and J.-P. Franc, Modeling Fluid-Structure Interaction in Cavitation Erosion: Preliminary Results, Journal of Physics: Conference Series, 656, 012053, (2015).

S. Gao, M. Fivel, A. Ma and A. Hartmaier, Influence of misfit stresses on dislocation glide in single crystal superalloys: A three-dimensional discrete dislocation dynamics study, Journal of the Mechanics and Physics of Solids, 76, pp. 276,290 (2015).

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Rédigé par Marc Fivel

mise à jour le 5 mai 2017

Communauté Université Grenoble Alpes
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