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Gibernau, M., & Chartier, M. (2010). Les Aracées: une diversité d’arômes ou les différentes stratégies de la séduction. Le courrier de la Nature, Spécial communication 2010(260), 26–32.
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Goret, J. Y., Burban, B., Burlett, R., Bosc, A., & Ponton, S. (2006). Mesure automatisée de la respiration du sol, caractérisation et comparaison de deux systèmes. Le Cahier Technique de l’Inra, Numéro spécial 2006, 25–30.
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Vidal-Sallé, E., Aimène, Y., & Boisse, P. (2011). Use of a hyperelastic constitutive law for dry woven forming simulations. In AIP Conference Proceedings (Vol. 1353, pp. 883–888). Belfast, United Kingdom.
Abstract: The increasing use of composite materials in industry implies an increasing use of automatic processes between which LCM processes take a large place. The improvement of such processes needs an extensive use of numerical simulations for all the stages of the process. In particular, it is necessary to know how the dry reinforcement is shaped. This paper presents a hyperelastic constitutive model for textile composite reinforcement at large strain based on an additive potential representative to tension and in-plane shearing. The proposed potential is a function of the right Cauchy Green and structural tensor invariants whose choice corresponds to textile composite reinforcement mechanical behaviour. The model is implemented in a user subroutine of ABAQUS/Explicit. The accuracy of the model has been checked and some simulations are performed on deep drawing with hemispheric punch. A good agreement is obtained with experimental forming experiments. © 2011 American Institute of Physics.
Keywords: Composite; Forming; Hyperelastic; Numerical modelling
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Corbara, B., Céréghino, R., Dejean, A., Lehours, A. C., Leroy, C., Orivel, J., et al. (2012). Des plantes tropicales qui forment les mares : les broméliacées-citerne. Quand les fourmis s’en mêlent. Le Courrier de la Nature, 269, 23–32.
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Carrias, J. - F., Leroy, C., Céréghino, R., Lehours, A. - C., Pélozuelo, L., Dejean, A., et al. (2011). Des plantes tropicales qui forment des mares : les broméliacées-citerne. Partie 1 : Un écosystème aquatique miniature capital pour la biodiversité. Le Courrier de la Nature, 261, 20–27.
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Vincent, G., Weissenbacher, E., Sabatier, D., Proisy, C., Blanc, L., & Couteron, P. (2010). Détection des variations de structure de peuplements en forêt dense tropicale humide par lidar aéroporté. Revue française de photogrammétrie et de télédétection, 191, 42–50.
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Chouteau, M., Barabé, D., & Gibernau, M. (2009). Flowering and thermogenetic cycles in two species of Monstera (Araceae). Bulletin de la Société d’Histoires Naturelles de Toulouse, 145, 5–10.
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Vedel, V., Camus, D., & Lamarre, G. P. A. (2011). Malaise and glass traps: useful means of catching canopy-dwelling spiders? Newsletter of the British Arachnology Society, 122, 12–15.
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Thoen, D., & Hérault, B. (2006). Flore, groupes socio-écologiques et typologie des mardelles forestières de Lorraine belge et luxembourgeoise. Bulletin de la Société des Naturalistes luxembourgeois, 107, 3–25.
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Dejean, A. (2018). Ant-Plant Interactions: Impacts of Humans on Terrestrial Ecosystems edited by Paulo S. Oliveira and Suzanne Koptur. The Quarterly Review Of Biology, 93(2), 138–139.
Abstract: Revue de l'ouvrage : Edited by Paulo S. Oliveira and Suzanne Koptur.
Cambridge and New York: Cambridge University Press.
$84.99. xix + 431 p. + 8 pl.; ill.; index. ISBN: 978-
1-107-15975-4. 2017.
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