<  Retour au portail Polytechnique Montréal

Documents dont l'auteur est "Bureau, Martin"

Monter d'un niveau
Pour citer ou exporter [feed] Atom [feed] RSS 1.0 [feed] RSS 2.0
Grouper par: Auteurs ou autrices | Date de publication | Sous-type de document | Aucun groupement
Nombre de documents: 29

Article de revue

Noel, S., Liberelle, B., Yogi, A., Moreno, M. J., Bureau, M., Robitaille, L., & De Crescenzo, G. (2013). A non-damaging chemical amination protocol for poly(ethylene terephthalate)-application to the design of functionalized compliant vascular grafts. Journal of Materials Chemistry B, 1(2), 230-238. Lien externe

Caouette, C., Bureau, M., Vendittoli, P.- A., Lavigne, M., & Nuño, N. (2012). Anisotropic bone remodeling of a biomimetic metal-on-metal hip resurfacing implant. Medical Engineering and Physics, 34(5), 559-565. Lien externe

Mohebbi-Kalhori, D., Rukhlova, M., Ajji, A., Bureau, M., & Moreno, M. J. (2012). A Novel Automated Cell-Seeding Device for Tissue Engineering of Tubular Scaffolds: Design and Functional Validation. Journal of Tissue Engineering and Regenerative Medicine, 6(9), 710-720. Lien externe

Moreno, M. J., Ajji, A., Mohebbi-Kalhori, D., Rukhlova, M., Hadjizadeh, A., & Bureau, M. (2011). Development of a compliant and cytocompatible micro-fibrous polyethylene terephthalate vascular scaffold. Journal of Biomedical Materials Research. Part B, Applied Biomaterials, 97 B(2), 201-214. Lien externe

Dimitrievska, S., Petit, A., Doillon, C. J., Epure, L., Ajji, A., Yahia, L., & Bureau, M. (2011). Effect of Sterilization on Non-woven Polyethylene Terephthalate Fiber Structures for Vascular Grafts. Macromolecular Bioscience, 11(1), 13-21. Lien externe

Dimitrievska, S., Maire, M., Diaz-Quijada, G. A., Robitaille, L., Ajji, A., Yahia, L., Moreno, M., Merhi, Y., & Bureau, M. (2011). Low Thrombogenicity Coating of Nonwoven PET Fiber Structures for Vascular Grafts. Macromolecular Bioscience, 11(4), 493-502. Lien externe

Stoeffler, K., Lafleur, P., Perrin-Sarazin, F., Bureau, M., & Denault, J. (2011). Micro-mechanisms of deformation in polyethylene/clay micro- and nanocomposites. Composites Part A: Applied Science and Manufacturing, 42(8), 916-927. Lien externe

Hadjizadeh, A., Ajji, A., & Bureau, M. (2011). Nano/micro electro-spun polyethylene terephthalate fibrous mat preparation and characterization. Journal of the Mechanical Behavior of Biomedical Materials, 4(3), 340-351. Lien externe

Bougherara, H., Bureau, M., & Yahia, L. (2010). Bone remodeling in a new biomimetic polymer-composite hip stem. Journal of Biomedical Materials Research. Part A, 92(1), 164-174. Lien externe

Hadjizadeh, A., Ajji, A., & Bureau, M. (2010). Preparation and characterization of NaOH treated micro-fibrous polyethylene terephthalate nonwovens for biomedical application. Journal of the Mechanical Behavior of Biomedical Materials, 3(8), 574-583. Lien externe

Arroyo, O. H., Huneault, M. A., Favis, B. D., & Bureau, M. (2010). Processing and properties of PLA/Thermoplastic starch/Montmorillonite nanocomposites. Polymer Composites, 31(1), 114-127. Lien externe

Hacking, S. A., Pauyo, T., Lim, L., Legoux, J. G., & Bureau, M. (2010). Tissue response to the components of a hydroxyapatite-coated composite femoral implant. Journal of Biomedical Materials Research. Part A, 94(3), 953-960. Lien externe

Dimitrievska, S., Petit, A., Ajji, A., Bureau, M., & Yahia, L. (2008). Biocompatibility of Novel Polymer-Apatite Nanocomposite Fibers. Journal of Biomedical Materials Research. Part A, 84A(1), 44-53. Lien externe

Campbell, M., Denault, J., Yahia, L., & Bureau, M. (2008). Cf/Pa12 Composite Femoral Stems: Manufacturing and Properties. Composites Part A: Applied Science and Manufacturing, 39(5), 796-804. Lien externe

Campbell, M., Bureau, M., & Yahia, L. (2008). Performance of Cf/Pa12 Composite Femoral Stems. Journal of Materials Science-Materials in Medicine, 19(2), 683-693. Lien externe

Roy, J., Rouleau, A., Chouteau, M. C., & Bureau, M. (2008). Widespread Occurrence of Aquifers Currently Undetectable With the MRS Technique in the Grenville Geological Province, Canada. Journal of Applied Geophysics, 66(3-4), 82-93. Lien externe

Bougherara, H., Bureau, M., Campbell, M., Vadean, A., & Yahia, L. (2007). Design of a Biomimetic Polymer-Composite Hip Prosthesis. Journal of Biomedical Materials Research. Part A, 82A(1), 27-40. Lien externe

Ajji, A., Denault, J., Côté, D., Bureau, M., & Trudel-Boucher, D. (2007). Polypropylene nanocomposite fibers : structure and some applications. International Polymer Processing, 22(4), 368-374. Lien externe

Communication écrite

Trudel-Boucher, D., Esquirol, A.-L., & Bureau, M. (mai 2012). Influence of cooling rates on microstructure and mechanical performance of continuous fiber reinforced PPS composites [Communication écrite]. SAMPE International Symposium and Exhibition - Emerging Opportunities: Materials and Process Solutions. Lien externe

Bureau, M., Maire, M., Diaz-Quijada, G., Robitaille, L., Ajji, A., & Merhi, Y. (juin 2009). Nonwoven pet fiber structures for vascular graft applications [Communication écrite]. 67th Annual Technical Conference of the Society of Plastics Engineers, Chicago, IL, United states. Lien externe

Gendron, R., Ajji, A., Dufour, J., Dimitrievska, S., & Bureau, M. (août 2008). Cell attachment on new fibrous pet structures for vascular grafts under controlled shear stress: experimental set-up and methodology [Communication écrite]. 15th International Congress on Rheology, Monterey, CA. Lien externe

Bureau, M., Moreno, M., & Ajji, A. (mai 2008). Endothelial/Smooth muscle cells growth into nonwoven fiber vascular grafts [Communication écrite]. International Congress on Biomaterials, Amsterdam, Netherlands. Non disponible

Bureau, M., Moreno, M., & Ajji, A. (octobre 2008). Endothelial/Smooth muscle cells growth into nonwoven fiber vascular grafts [Communication écrite]. Fiber Society 2008 Fall Meeting and Technical Conference, Boucherville, Québec, Canada. Non disponible

Dimitrievska, S., Petit, A., Ajji, A., Bureau, M., & Yahia, L. (février 2007). Biocompatibility of a novel bioactive polymer-apatite nanocomposite [Communication écrite]. 53rd Annual Meeting of the Orthopaedic Research Society, San Diego, CA. Publié dans Tissue Engineering, 13(4). Non disponible

Maire, M., Ajji, A., Bureau, M., Robitaille, L., & Yahia, L. (avril 2007). Hemocompatibility of new fibrous PET structures with and without surface modification [Communication écrite]. International Symposium on Polymeric Materials for Regenerative Medicine 2007. Lien externe

Moreno, M., Ajji, A., & Bureau, M. (juin 2007). New fibrous PET structures for vascular grafts : effect of fiber structure on endothelial and smooth muscle cell attachment and growth [Communication écrite]. 7th International Symposium on Frontiers in Biomedical Polymers, Ghent, Belgium. Lien externe

Dimitrievska, S., Ajji, A., Bureau, M., Petit, A., & Yahia, L. (avril 2007). Novel bioactive polymer-apatite nanocomposite fibres and their biocompatibility [Communication écrite]. International Symposium on Polymeric Materials for Regenerative Medicine 2007, Boucherville, Québec. Lien externe

Mémoire de maîtrise

Bureau, M. (1994). Microfissuration en fatigue oligocyclique sur le cuivre polycristallin : effet de l'écrouissage et de l'environnement [Mémoire de maîtrise, École Polytechnique de Montréal]. Non disponible

Chapitre de livre

Trudel‐Boucher, D., Bureau, M., Denault, J., & Fisa, B. (2020). Low-Velocity Impact Response of a Continuous Glass Fiber/Polypropylene Composite. Dans Hoa, S. V. (édit.), CANCOM 2001 Proceedings of the 3rd Canadian International Conference on Composites (p. 517-524). Lien externe

Liste produite: Fri Dec 20 03:37:53 2024 EST.