FrançaisEnglishEspañol

accès directs

Annuaire
Espace numérique de travail
Laboratoires de recherche

Delphine
NOTTA-CUVIER

In a few words, my research topics deal with the understanding, modelling and characterisation of material behaviour from quasi-static to dynamic loading conditions. Developments range from nanoscopic to macroscopic scale.
Thus, I work on the development of PLA-based bio-sourced polymers, in collaboration with SMPC at University of Mons (Belgium). In particular, we study the morphology-process-properties interactions and aim to enhance the formulations to make those materials suitable for technical applications, including high strain-rate and temperature loadings. Different strategies are/were investigated depending on targeted properties. For instance, the combination of plasticizer, impact modifier and nanoreinforcement (such as nanoclay platelets or halloysite nanotubes) can be an efficient strategy to confer to PLA-based materials satisfying levels of ductility and impact strength while keeping high rigidity and tensile/flexural strength. An other strategy is blending PLA with another polymer characterised by a high thermal resistancy, such as PMMA. By tuning the nature and content of other component (impact modifiers, nucleating agent...) an interesting compromise can be reached between thermal and mechanical properties. From the end of 2017, we are investigating how developed PLA-based material can be modified by the creation of reversible ionic interactions, which confer to the materials very interesting properties, such as self-healing.
My second principal axis of research is the modelling of behaviour of short-fibre-reinforced thermoplastic polymers. The modelling aims to be cost efficient for numerical simulation using an explicit scheme for the prediction of material/structural response under dynamic loading conditions. All specificites of thermoplastic matrix (viscoelasticity, viscoplasticity with compressible plastic flow and sensitivity to hydrostatic pressure, damage...) are taken into account as well as complex reinforcement characterisitics (e.g. distribution of fibre orientations). In addition, interdependent damage phenomena, in particular fibre/matrix interfacial debonding, are modelled. Finally, the model is able to take the natural  variability of constitutive, geometrical and mechanical properties of vegetal fibres for the prediction of behaviour of short-vegetal-fibre-reinforced thermoplastics.

In parallel, I work on the development of the Virtual Fields Method (VFM) for the characterisation of material behaviour using heterogeneous full-field measurements, in collaboration with ONERA (French Aerospace Lab) and University of Southampton (GB). The VFM is dedicated to the characterisation of material behaviour laws using full field measurements. Our achievements/outlooks concern the characterisation of strongly non-linear constitutive laws (e.g. elastoviscoplasticity coupled with damage) from quasi-static to very high strain-rate loading (impact). One of main advantages of the VFM, thanks to the treatment of heterogeneous mechanical fields, is to allow a strong reduction of the number of tests required to characterise strongly non-linear behaviour models. For instance, we have shown that the whole characterisation of Johnson-Cook viscoplastic model of behaviour of an aeronautical Titanium alloy (Ti6Al4V) is possible using only two tensile tests (one under quasi-static loading conditions, the second at moderately high strain-rate) and DIC (digital image correlation). In addition, no finite element simulation of the experiment is needed and there is no need to know exact boundary conditions applied on the specimen. Thus, the VFM can be used with original specimen geometry and/or simplified testing procedure. In our work, geometry is for instance optimised for the development of plastic strain and plastic strain rate fields with tuned properties, which depends on the behaviour model to be identified, using the VFM with virtually deformed images. We develop the VFM for a “classical” use, i.e. from measurements of displacement field (then used to compute strain fields) and load resultant (again, the exact distribution of loading on the specimen is not required if choosing accurate virtual fields). More recently, we have started to develop an alternative use of the VFM, namely as a “load cell”. In that case, inputs are displacement fields only, at the basis of computation of strain and acceleration fields. Typically, this way is used to characterise material behaviour from inertial impact test, with a plasticization of the material due to the propagation of traction-compression waves. By nature of the VFM, developments also deal with topic such as analysis/control of signal/noise ratio, double spatial derivation for the extraction of acceleration fields (aiming at minimizing the impact of noisy measurements), etc...

Fonctions actuelles

    Dans le groupe de recherche

  • Depuis janv. 2018 :
    Responsable adjoint axe MATERDYN puis animatrice activité COMPDYN

    • Dans le laboratoire

  • 2019 :

    Membre du comité de suivi MH2

    • Au sein de l'université

  • Depuis 11/2020 :
    Responsable pédagogique du Master International Transport et Energie de l'INSA Hauts-de-France

Diplômes universitaires

  • 2011 :
    Diplôme de Doctorat en Mécanique de l'Université de Valenciennes et du Hainaut Cambrésis
    PhD degree in Mechanical Engineering of Université of Valenciennes and Hainaut Cambrésis
  • 2008 :
    Diplôme d'Ingénieur de l'Ecole Centrale de Lille option Mécanique Avancée
    Engineering degree of Ecole Centrale de Lille, specialty Advanced Mechanics
  • 2008 :
    Master 2 Recherche de l'Ecole Centrale de Lille en partenariat avec l'Université de Lille 1
    Master degree of Ecole Centrale de Lille - University of Lille 1

Expériences professionnelles

  • De novembre 2011 à octobre 2012 :
    Post-doctorat sur fonds CISIT au LAMIH
    Elargissement de mes thématiques de recherche : 1/ renforcement de la collaboration avec le SMPC de l'UMONS pour le développement de compositions polymères biosourcées à base de PLA ; 2/ développement d'un modèle de comportement alternatif aux méthodes d'homogénéisation pour les composites à fibres courtes.
    Poursuite des travaux en collaboration avec l'ONERA (continuité des travaux de thèse)
    Post-doctoral position
    Widening of my research topics to: 1/ Reinforcement of collaboration with SMPC at UMONS for the development of PLA-based biosourced polymer compositions; 2/ Development of a behaviour model for short-fibre-reinforced composites which aims to be an efficient alternative to homogenisation techniques.
    Continuation of collaborative work with ONERA (French Aerospace Lab) (following of PhD thesis work).
  • De novembre 2012 à aout 2013 :
    ATER temps plein LAMIH-ENSIAME : poursuite des travaux de recherche et enseignements à l'ENSIAME
    Non-permanent teacher/researcher position in LAMIH-ENSIAME: continuation of same research topics and teaching at ENSIAME (Engineering School)
  • De septembre 2013 à aout 2014 :
    ATER temps plein ENSIAME-LAMIH : mêmes travaux de recherche et enseignements.
    Non-permanent teacher/researcher position in LAMIH-ENSIAME: same research topics and teachings.

  • Depuis septembre 2014 :
    Maître de Conférences LAMIH-ENSIAME (titularisation en septembre 2015) puis LAMIH-INSA Hauts-de-France
    Associate professor LAMIH-ENSIAME then LAMIH-INSA Hauts-de-France

Enseignements actuels

  • Enseignement à l'ENSIAME Groupe INSA en Mécanique

Revue internationale avec comité de lecture

Proy J., Massa F., Notta-Cuvier D., Lauro F., Tison T., Spingler G. (2022). Experimental investigations for variability quantification of vibration response of short(-natural)-fiber-reinforced polypropylene. POLYMER COMPOSITES, 43(11), pp. 8499-8506. [IF=3.531] [DOI=https://doi.org/10.1002/pc.27019].

Potaufeux J., Rapp G., Barrau S., Liu G., Zhang C., Giannelis E., Notta-Cuvier D., Lauro F., Raquez J.-M., Odent J., Therias S. (2022). Influence of photooxidation on ionic reversible interactions of ionic poly(ether urethane)/silica hybrids. Polymer Degradation and Stability [DOI=https://doi.org/10.1016/j.polymdegradstab.2022.109872].

Thoby J.-D., Fourest T., Langrand B., Notta-Cuvier D., Markiewicz é. (2022). Robustness of specimen design criteria for identification of anisotropic mechanical behaviour from heterogeneous mechanical fields. Computational Materials Science, 207, pp. 111260 [DOI=https://doi.org/10.1016/j.commatsci.2022/111260].

Potaufeux J., Odent J., Notta-Cuvier D., Barrau S., Magnani C., Delille R., Zhang C., Liu G., Giannelis E., Muller A., Lauro F., Raquez J.-M. (2021). Mastering Superior Performance Origins of Ionic Polyurethane/Silica Hybrids. Applied Polymer Materials. [IF=4.089] [DOI=https://doi.org/10.1021/acsapm.1c01396].

Proy J., Massa F., Notta-Cuvier D., Lauro F., Tison T., Spingler G. (2021). Integrating fibers and injection molding process variability in short-natural-fiber-reinforced thermoplastics behavior:A review. materialstoday COMMUNICATIONS, 29. [IF=3.383] [DOI=https://doi.org/10.1016/j.mtcomm.2021.102785].

Dorleans V., Delille R., Notta-Cuvier D., Lauro F., Michau E. (2021). Time temperature superposition in viscoelasticity and viscoplasticity for thermoplastics. POLYMER TESTING, 101. [IF=4.282] [DOI=https://doi.org/10.1016/j.polymertesting.2021.107287].

Notta-Cuvier D., Nciri M., Lauro F., Chaari F., Zouari B., Maalej Y. (2021). A pragmatic approach for modelling the viscoelastic-viscoplatic behaviour of short-fibre reinforced thermoplastics coupled with anisotropic damage. Applied Composite Materials, 28 (2), pp. 341-368. [IF=2.199] [DOI=10.1007/s10443-020-09855].

Potaufeux J., Odent J., Notta-Cuvier D., Lauro F., Raquez J.-M. (2020). A comprehensive review of the structures and properties of ionic polymeric materials. Polymer Chemistry, 11, pp. 5914-5936 [DOI=10.1039/D0PY00770F].

Potaufeux J., Odent J., Notta-Cuvier D., Delille R., Barrau S., Giannelis E., Lauro F., Raquez J.-M. (2020). Mechanistic insights on ultra-tough polylactide-based ionic nanocomposites. Composites Science and Technology. [IF=6.309] [DOI=10.1016/j.compscitech.2020.108075].

Nciri M., Notta-Cuvier D., Lauro F., Chaari F., Delille R., Haugou G., Maalej Y., Zouari B. (2019). Performance over a wide range of strain rate of polypropylene reinforced by short alfa fibres. Polymer Composites. Polymer Composites, 40 (7), pp. 2850-2862. [IF=1.943]

Bouda P., Langrand B., Notta-Cuvier D., Markiewicz é., Pierron F. (2019). A computational approach to design new tests for viscoplasticity characterization at high strain-rates. Computational Mechanics, 64, pp. 1639-1654 [DOI=10.1007/s00466-019-01742-y].

Nciri M., Notta-Cuvier D., Lauro F., Chaari F., Maalej Y., Zouari B. (2019). Viscoelastic-viscoplastic model for short-fiber-reinforced composites with complex fibre orientation. Mechanics of Advanced Materials and Structures, 160, pp. 516-528. [IF=1.196] [DOI=http://dx.doi.org/10.1080/15376494.2018.1430264].

Fourest T., Bouda P., Fletcher C., Notta-Cuvier D., Markiewicz é., Pierron F., Langrand B. (2019). Image-based inertial impact test for characterisation of strain rate dependency of Ti6Al4V titanium alloy. Experimental Mechanics [DOI=10.1007/s11340-019-00559-3].

Nciri M., Notta-Cuvier D., Lauro F., Chaari F., Maalej Y., Zouari B. (2017). Modelling and characterisation of dynamic behaviour of short-fibre-reinforced composites. Composite Structures, 160, pp. 516-528. [IF=3.853] [DOI=http://dx.doi.org/10.1016/j.compstruct.2016.10.083].

Bouzouita A., Notta-Cuvier D., Delille R., Lauro F., Raquez J.-M., Dubois P. (2017). Design of toughened PLA based material for application in structures subjected to severe loading conditions. Part 2. Quasi-static tensile tests and dynamic mechanical analysis at ambient and moderately high temperature. Polymer Testing, 57, pp. 235-244. [IF=2.35] [DOI=doi : 10.1016/j.polymertesting.2016.11.034].

Markiewicz é., Langrand B., Notta-Cuvier D. (2017). A review of characterisation and parameters identification of materials constitutive and damage models: From normalised direct approach to most advanced inverse problem resolution. International Journal of Impact Engineering. [IF=2.646] [DOI=10.1016/j.ijimpeng.2017.01.028].

Bouzouita A., Notta-Cuvier D., Raquez J.-M., Lauro F., Dubois P. (2017). Poly (lactic acid)-based materials for automotive applications. Industrial Applications of Poly (lactic acid), pp. 177-219

Notta-Cuvier D., Bouzouita A., Delille R., Haugou G., Raquez J.-M., Lauro F., Dubois P. (2016). Design of toughened PLA based material for application in structures subjected to severe loading conditions. Part 1. Quasi-static and dynamic tensile tests at ambient temperature. Polymer Testing, 54, pp. 233-243. [IF=2.35]

Notta-Cuvier D., Nciri M., Lauro F., Delille R., Chaari F., Robache F., Haugou G., Maalej Y. (2016). Coupled influence of strain rate and heterogeneous fibre orientation on the mechanical behaviour of short-glass-fibre reinforced polypropylene. Mechanics of Materials, 100, pp. 186-197, ISSN 0167-6636. [IF=2.636] [DOI=10.1016/j.mechmat.2016.06.013].

Notta-Cuvier D., Lauro F., Bennani B., Nciri M. (2016). Impact of natural variability of flax fibres properties on mechanical behaviour of short-flax-fibre-reinforced polypropylene. Journal of Materials Science, 51(6), pp. 2911-2925, ISSN 0022-2461. [IF=2.371] [DOI=10.1007/s10853-015-9599-3].

Bouzouita A., Samuel C., Notta-Cuvier D., Odent J., Lauro F., Dubois P., Raquez J.-M. (2016). Design of highly tough poly(L-lactide)-based ternary blends for automotive applications. Journal of applied polymer science, 43402, pp. 1-9, ISSN 1097-4628. [IF=1.768] [DOI=10.1002/app.43402].

Notta-Cuvier D., Murariu M., Odent J., Delille R., Bouzouita A., Raquez J.-M., Lauro F., Dubois P. (2015). Tailoring Polylactide Properties for Automotive Applications: Effects of Co-Addition of Halloysite Nanotubes and Selected Plasticizer. Macromolecular materials and engineering, 300(7), pp. 684–698, ISSN 1438-7492. [IF=2.781] [DOI=10.1002/mame.201500032].

Notta-Cuvier D., Langrand B., Lauro F., Markiewicz é. (2015). An innovative procedure for characterising a coupled elastoplastic damage model of behaviour using the Virtual Fields Method. International Journal of Solids and Structures, 69-70, pp. 415-427, ISSN 0020-7683. [IF=2.035] [DOI=10.1016/j.ijsolstr.2015.05.009].

Notta-Cuvier D., Lauro F., Bennani B. (2015). Modelling of progressive fibre/matrix debonding in short-fibre reinforced composites up to failure. International Journal of Solids and Structures, 66, pp. 140-150, ISSN 0020-7683. [IF=2.035] [DOI=10.1016/j.ijsolstr.2015.03.034].

Notta-Cuvier D., Odent J., Delille R., Murariu M., Lauro F., Raquez J.-M., Bennani B., Dubois P. (2014). Tailoring polylactide (PLA) properties for automotive applications: Effect of addition of designed additives on main mechanical properties. Polymer Testing, 36, pp. 1-9, ISSN 0142-9418. [IF=1.646]

Notta-Cuvier D., Lauro F., Bennani B. (2014). An original approach for mechanical modelling of short-fibre reinforced composites with complex distributions of fibre orientation. Composites: Part A, 62, pp. 60-66, ISSN 1359-835X. [IF=2.744]

Notta-Cuvier D., Lauro F., Bennani B., Balieu R. (2014). Damage of short-fibre reinforced materials with anisotropy induced by complex fibres orientations. Mechanics of Materials, 68, pp. 193-206, ISSN 0167-6636. [IF=1.936]

Notta-Cuvier D., Lauro F., Bennani B., Balieu R. (2013). An efficient modelling of inelastic composites with misaligned short fibres. International Journal of Solids and Structures, 50(19), pp. 2857-2871, ISSN 0020-7683. [IF=1.871]

Notta-Cuvier D., Langrand B., Markiewicz é., Lauro F., Portemont G. (2012). Identification of Johnson-Cook's viscoplastic model parameters using the Virtual Fields Method: application to Titanium alloy Ti6Al4V. Strain, 49, pp. 22-45, ISSN 0039-2103. [IF=0.619]

Chapitre d'ouvrage

Demarty Y., Lefèbvre M., Notta-Cuvier D., Bahlouli N., Lauro F. (2024). Dynamic behavior of bio-based materials Fundamentals, Material models and Microstructure effects. Dynamic Behavior of Materials, Mikko Hokka, Elsevier, pp. 633-680 [DOI=https://doi.org/10.1016/B978-0-323-99153-7.00015-3].

Langrand B., Notta-Cuvier D., Fourest T., Markiewicz é. (2019). Some advantages of advanced inverse methods to identify viscoplastic and damage material model parameters. Dynamic Damage and Fragmentation, ISTE, Wiley, pp. , ISBN 978-1-78630-408-7

Notta-Cuvier D., Bouzouita A., Odent J., Delille R., Murariu M., Lauro F., Raquez J.-M., Haugou G., Dubois P. (2018). L'acide polylactique (PLA) pour des applications automobiles. Edition des Techniques de l'Ingénieur, RE 273, pp.

Bouzouita A., Notta-Cuvier D., Raquez J.-M., Lauro F., Dubois P. (2017). Poly(lactic acid)-Based Materials for Automotive Applications. Advances in Polymer Science, Springer, Berlin, Heidelberg, pp. [DOI=https://doi.org/10.1007/12_2017_10].

Conférence internationale avec actes et comité de lecture

Bahlouli N., Lefebvre M., Notta-Cuvier D., Demarty Y., Lauro F. (2023). Dynamic behavior of bio-based fibers and composites materials. 27th DYMAT Technical Meeting 2023, Colmar (France), novembre .

Markiewicz é., Langrand B., Notta-Cuvier D. (2022). Heterogeneous fields based tests for identification of materials constitutive models at high rate of strains. 3rd International Conference on Impact Loading of Structures and Materials (ICILSM), Trondheim (Norway), juin .

Dorleans V., Delille R., Lauro F., Notta-Cuvier D., Michau E. (2022). Failure characterization for polymers at different strain rate and temperature. 3rd International Conference on Impact Loading of Structures and Materials (ICILSM), Trondheim (Norway), juin .

Thoby J.-D., Fourest T., Notta-Cuvier D., Markiewicz é., Langrand B. (2022). Impact of Fullfield measurement biases on Identification of anisotropic material behavior model. 3rd International Conference on Impact Loading of Structures and Materials (ICILSM), Trondheim (Norway), juin .

Thoby J.-D., Fourest T., Langrand B., Notta-Cuvier D., Markiewicz é. (2021). Impact of DIC biases on the selection process of a unique test for anisotropic plasticity characterization. DYMAT 2021, Madrid (Spain), septembre .

Fourest T., Bouda P., Langrand B., Notta-Cuvier D., Markiewicz é., Fletcher L., Pierron F. (2020). Dynamic VFM to identify viscoplastic parameters. Analysis of impact tests on titanium alloy. Residual stress, thermomechanics & infrared imaging and inverse problems, 6, pp. 101-103, juillet ., ISBN 978-3-030-30098-2

Dorleans V., Lauro F., Delille R., Notta-Cuvier D., Michau E. (2020). A Viscoelastic-Viscoplastic Characterization with Time Temperature Superposition for Polymer Under Large Strain Rates. Leslie E. Lamberson, Dynamic Behavior of Materials DYMAT, 1, Springer, pp. 103-110, janvier .

Dorleans V., Lauro F., Delille R., Notta-Cuvier D., Michau E. (2019). A viscoelastic-viscoplastic characterisation with time temperature superposition for polymer under large strain rates. Society for Experimental Mechanics - SEM 2019, Reno, USA, juin .

Dorleans V., Delille R., Lauro F., Notta-Cuvier D., Bourel B., Haugou G., Bennani B., Morvan H., Michau E. (2019). A viscoelastic-viscoplastic time temperature equivalence for thermoplastics. 12th European LS-DYNA Conference, Koblenz (Germany), mai .

Potaufeux J., Notta-Cuvier D., Odent J., Lauro F., Raquez J.-M., Dubois P. (2018). Organic-inorganic ionic polylactide based hybrids. 10th ECNP International Conference on Nanostructured Polymers and Nanocomposites, San Sebastian (Espagne), octobre .

Potaufeux J., Notta-Cuvier D., Odent J., Lauro F., Raquez J.-M., Dubois P. (2018). Organic-inorganic ionic polylactide based hybrids. 6th Young Polymer Scientists Conference, San Sebastian (Espagne), octobre .

Bouda P., Langrand B., Notta-Cuvier D., Markiewicz é., Pierron F. (2018). Image-based high strain-rate testing for the characterization of viscoplasticity. 12th DYMAT Conference, Arcachon (France), septembre .

Dorleans V., Lauro F., Delille R., Treutenaere S., Notta-Cuvier D., Bennani B., Haugou G., Bourel B., Michau E., Thoby J.-D. (2018). Time temperature equivalence for a mineral filled polymer for automotive applications. 12th International DYMAT Conference, Arcachon (France), septembre .

Bouda P., Notta-Cuvier D., Langrand B., Markiewicz é., Pierron F. (2018). Optimization of an image-based experimental setup for the dynamic behaviour characterization of materials. Society of Experimental Mechanics (SEM), Greenville SC (USA), juin .

Bouda P., Notta-Cuvier D., Langrand B., Markiewicz é., Pierron F. (2018). Optimization of an image-based impact test for the characterization of viscoplasticity. 2nd International Conference on Impact Loading of Structures and Materials (ICILSM), Xi'an (Chine), mai .

Nciri M., Notta-Cuvier D., Lauro F., Chaari F., Delille R., Robache F., Haugou G. (2018). Modelling of damageable strain-rate-dependent behaviour of short fibre reinforced thermoplastics. 2nd International Conference on Impact Loading of Structures and Materials (ICILSM), Xi'an (Chine), mai .

Notta-Cuvier D., Nciri M., Lauro F., Maalej Y., Chaari F., Zouari B. (2017). A dynamic model of behaviour of short-fibre-reinforced thermoplastics taking into account the natural variability of constitutive, geometrical and mechanical properties of vegetal fibres. 3rd International Conference on Natural Fibers (ICNF), Braga, Portugal, juin .

Langrand B., Markiewicz é., Notta-Cuvier D., Pierron F. (2017). On some advantages of advanced inverse methods to identify viscoplastic and damage material models parameters. ICACM 2017 Symposium, Annual US-France symposium « Dynamic Damage, Fracture and Fragmentation of Materials », Shalimar (USA), mai .

Nciri M., Notta-Cuvier D., Lauro F., Chaari F., Zouari B., Maalej Y. (2016). A model for non-linear dynamic behaviour of short fibre reinforced composites. A3M'2016, Hammamet, Tunisia, décembre .

Eseholi T., Notta-Cuvier D., Coudoux F.-X., Corlay P. (2016). Performance evaluation of strain field measurement by digital image correlation using HEVC compressed ultra-high speed video sequences. 8th International Symposium on Signal, Image, Video and Communications, ISIVC 2016, Tunis (Tunisie), novembre .

Nciri M., Notta-Cuvier D., Lauro F., Chaari F., Maalej Y., Zouari B. (2016). Modeling non-linear strain rate dependent behaviour of short-fibre reinforced composites. ICILSM, Torino, Italia, mai .

Bouzouita A., Raquez J.-M., Notta-Cuvier D., Lauro F., Dubois P. (2016). Effect of annealing process, stereocomplexation and nucleation on performances of highly tough Polylactide-based materials for automotive applications. 14th International Symposium on Bioplastics, Biocomposites and Biorefining, ISBBB2016, Guelph, Canada, mai .

Nciri M., Notta-Cuvier D., Lauro F., Chaari F., Zouari B., Maalej Y. (2015). A viscoelastic-viscoplastic model for short-fibre reinforced polymers with complex fibre orientations. DYMAT, Lugano, Switzerland, septembre . [DOI=10.1051/epjconf/20159404008].

Bouzouita A., Samuel C., Notta-Cuvier D., Odent J., Lauro F., Raquez J.-M., Dubois P. (2015). Development of toughened PLLA/PMMA bio-based materials for automotive applications. Eurofillers Polymer Blends, Montpellier (France), avril .

Bouzouita A., Raquez J.-M., Lauro F., Cédric S., Notta-Cuvier D., Dubois P. (2014). PLA/PMMA - based blends toughened with commercial impact modifiers for automotive applications. 5th workshop of green chemistry and nanotechnologies in polymer chemistry, San Sebastian, spain, juillet .

Bouzouita A., Raquez J.-M., Lauro F., Cédric S., Notta-Cuvier D., Dubois P. (2014). PLA/PMMA - based blends toughened with commercial impact modifiers for automotive applications. Belgian polymer group annual meeting, Ghent, Belgium, mai .

Notta-Cuvier D., Lauro F., Bennani B. (2014). Anisotropic damage induced by complex fibre orientations in short-fibre reinforced composites. ICILLS International Conference on Impact Loading of Lightweight Structures, Cape Town, South Africa, janvier .

Notta-Cuvier D., Langrand B., Markiewicz é., Bourel B. (2011). Characterization of the dynamic behaviour of a titanium alloy using the Virtual Fields Method. 3rd International Conference on Impact Loading of Lightweight Structures (ICILLS'2011), Valenciennes, France, juin .

Notta-Cuvier D., Langrand B., Markiewicz é., Bourel B. (2011). An advanced procedure to identify viscoplastic parameters using the virtual fields method. International Symposium on Plasticity 2011 and its current application, Puerto Vallarto, Mexico, janvier .

Conférence nationale avec actes et comité de lecture

Notta-Cuvier D., Proy J., Lauro F., Massa F. (2023). Modélisation des phénomènes d'endommagement et critère de rupture de thermoplastiques renforcés par fibres courtes minérales ou végétales. Journées Nationales sur les Composites (JNC), besancon, France, juin .

Bouda P., Langrand B., Notta-Cuvier D., Markiewicz é., Pierron F. (2017). Conception d'un essai purement inertiel pour la caractérisation du comportement dynamique de matériaux métalliques par la Méthode des Champs Virtuels. Congrès Français de Mécanique (CFM) 2017, Lille (France), août .

Nciri M., Notta-Cuvier D., Lauro F., Chaari F., Zouari B., Maalej Y. (2017). A coupled viscoelastic-viscoplastic model for short-fibre reinforced composites. Congrès Français de Mécanique (CFM) 2017, Lille (France), août .

Bouda P., Langrand B., Notta-Cuvier D., Pierron F., Markiewicz é. (2017). Méthode innovante de calcul de champs cinématiques dérivés à partir de mesures de champs de déplacement pour la caractérisation du comportement dynamique de matériaux. Congrès Français de Mécanique (CFM) 2017, Lille (France), août .

Notta-Cuvier D., Nciri M., Lauro F. (2017). Modélisation du comportement dynamique de thermoplastiques renforcés par fibres courtes : influence couplée du comportement visqueux de la matrice et des caractéristiques complexes du renfort. 20ièmes Journées Nationales des Composites, Champs sur Marne, France, juin .

Bouda P., Langrand B., Pierron F., Markiewicz é., Notta-Cuvier D. (2017). Conception d'un essai purement inertiel pour la caractérisation du comportement dynamique de matériaux métalliques par la Méthode des Champs Virtuels. Journées du Groupe de Travail MECADYMAT, Cachan (France), mars .

Notta-Cuvier D., Nciri M., Lauro F., Chaari F., Delille R., Robache F., Haugou G., Maalej Y., Zouari B. (2016). Variabilité des propriétés constitutives, géométriques et mécaniques des fibres végétales : quel impact sur le comportement mécanique de composites à fibres courtes ?. 2ème édition des Journées Jeunes Chercheurs Eco-composites et Composites Bio-sourcés, IFMA/SIGMA, Clermont-Ferrand (France), avril .

Notta-Cuvier D., Nciri M., Lauro F., Chaari F., Delille R., Robache F., Haugou G., Maalej Y., Zouari B. (2016). Comportement sous sollicitations dynamiques de thermoplastiques renforcés par fibres courtes: Influence couplée de la vitesse de déformation et des distributions d'orientation des fibres. Journées du Groupe de Travail MécaDymat, Icube, Illkirch (France), mars .

Notta-Cuvier D., Odent J., Delille R., Murariu M., Lauro F., Raquez J.-M., Bennani B. (2014). Développement de compositions polymères biosourcées sur base PLA pour des applications automobiles. Matériaux 2014, Montpellier, novembre .

Notta-Cuvier D., Lauro F., Bennani B., Balieu R. (2013). Modélisation du comportement inélastique avec endommagement de composites renforcés par des fibres courtes non parfaitement orientées. Actes du 11ème colloque national en calcul des structures, Giens, mai .

Notta-Cuvier D., Langrand B., Markiewicz é., Lauro F. (2011). Méthode des champs virtuels pour la caractérisation de modèles de comportement viscoplastiques. Actes du 10ème colloque national en calcul des structures (CSMA'2011), Giens, mai .

Notta-Cuvier D., Langrand B., Markiewicz é., Lauro F. (2010). Méthode des champs virtuels pour la caractérisation de l'endommagement des matériaux viscoplastiques. Matériaux 2010, Nantes, France, octobre .

Mémoire de doctorat

Notta-Cuvier D. (2011). Méthode des champs virtuels pour la caractérisation des comportements à rupture et/ou en grandes déformation. , Univ. Valenciennes Et Du Hainaut-Cambrésis, novembre .