Laboratoire Procédés et Ingénierie en Mécanique et Matériaux (PIMM)

 


Le laboratoire Procédés et Ingénierie en Mécanique et Matériaux (PIMM) rassemble une vaste gamme de spécialistes allant de la mécanique des matériaux et des structures à la chimie des polymères, des procédés de mise en forme et d’assemblage aux méthodes avancées de la simulation numérique. Les recherches sur les procédés laser et les procédés de mise en forme des polymères s’appuient sur un vaste ensemble de moyens expérimentaux.

Les travaux s’attachent en particulier aux conséquences des procédés sur les propriétés d’emploi, via les défauts et les modifications de microstructures engendrées. Les activités développées en dynamique des structures et en commande et surveillance des systèmes, au-delà de leur justification propre, permettent d’apporter de nombreuses contributions à la compréhension et à la simulation des procédés. Nous pouvons ajouter que le laboratoire possède une compétence bien établie dans le domaine de la durabilité des matériaux, notamment pour les matériaux plastiques. Enfin, depuis très récemment, nous développons des méthodes de Data Driven pour enrichir nos analyses et nos modèles dans nos diverses activités de recherche.


The Process and Engineering in Mechanics and Materials laboratory (PIMM) brings together a wide range of specialists from the mechanics of materials and structures to the polymer chemistry and from forming and assembling processes, to advanced methods for numerical simulation. Research on laser processes and procedures forming polymers are based on an extensive set of experimental means.

In particular, we deal with the consequences of the processes on the service properties via the induced defects and microstructural modifications. The activities in structural dynamics, system and vibration control, beyond their own justification, can make significant contributions to understand and simulate processes. We can add that the laboratory has a well-established expertise in the field of aging of polymer structures in service conditions. At last, we developed Data Driven approaches to improve the analyses and our modeling of our various scientific fields.

Voir le site du laboratoire PIMM :
http://pimm.ensam.eu

Recent Submissions

  • Numerical Modeling of Iceberg Capsizing Responsible for Glacial Earthquakes 
    SERGEANT, Amandine; YASTREBOV, Vladislav; MANGENEY, Anne; CASTELNAU, Olivier; MONTAGNER, Jean-Paul; STUTZMANN, Eléonore (American Chemical Society, 2018)
    The capsizing of icebergs calved from marine‐terminating glaciers generate horizontal forces on the glacier front, producing long‐period seismic signals referred to as glacial earthquakes. These forces can be estimated by ...
  • Classical and sequential limit analysis revisited 
    LEBLOND, Jean-Baptiste; REMMAL, Almahdi; MORIN, Léo; KONDO, Djimédo (Elsevier, 2018)
    Classical limit analysis applies to ideal plastic materials, and within a linearized geometrical framework implying small displacements and strains. Sequential limit analysis was proposed as a heuristic extension to materials ...
  • Investigating ramp wave propagation inside silica glass with laser experiments and molecular simulations 
    RENOU, Richard; BERTHE, Laurent; GUIN, Jean-Pierre; LOISON, Didier; SANGLEBOEUF, Jean-Christophe; NIVARD, Mariette; DEREURE, Corentin; LESCOUTE, Emilien; SOULARD, Laurent (Magdeburger Verein fur Technische Mechanik e. V., 2018)
    Under elastic shock compression silica glass exhibits a very specific behaviour. A shock propagating inside a material is usually seen as the propagation of a discontinuity. However in silica glass, shocks are unstable and ...
  • Reduced-order modeling of soft robots 
    CHENEVIER, Jean; CUETO, Elias; CHINESTA, Francisco; GONZALEZ, David; AGUADO, Jose Vicente (Public Library of Science, 2018)
    We present a general strategy for the modeling and simulation-based control of soft robots. Although the presented methodology is completely general, we restrict ourselves to the analysis of a model robot made of hyperelastic ...
  • A multireflection and multiwavelength residual stress determination method using energy dispersive diffraction 
    MARCISZKO, Marianna; WAWSZCZAK, Roman; SIDHOM, Habib; BRAHAM, Chedly; WROBEL, Mirosław; WRONSKI, Sebastian; OPONOWICZ, Adrian; GENZEL, Christoph; KLAUS, Manuela; BACZMANSKI, Andrzej (Wiley-Blackwell, 2018)
    The main focus of the presented work was the investigation of structure and residual stress gradients in the near-surface region of materials studied by X-ray diffraction. The multireflection method was used to measure ...
  • High temperature durability of a bond-coatless plasma-sprayed thermal barrier coating system with laser textured Ni-based single crystal substrate 
    KROMER, Robin; PEYRE, Patrice; BERTHE, Laurent; COURAPIED, Damien; COSTIL, Sophie; CORMIER, Jonathan (Elsevier, 2018)
    Thermal barrier coating systems are usually build-up with bond coats to ensure a good adhesion of the ceramic top coat and to protect the substrate against oxidation and corrosion. Such system is often subjected to complex ...
  • Investigation of crack propagation resistance of 304L, 316L and 316L(N) austenitic steels in liquid sodium 
    BARKIA, Bassem; AUGER, Thierry; CABET, Céline; NICOLAS, Laetitia; ROBIN, Raphaël; RIVOLLIER, Matthieu; LORENTZ, Véronique; PERRIN, E. (Elsevier, 2018)
    In order to assess the susceptibility of candidate structural materials to Liquid Metal Embrittlement (LME), the fracture behavior of three grades of austenitic steels was investigated in oxygenated (200 wppm) liquid sodium ...

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