Member's profile
Team size : 10 to 49
Address : 2500 Chem. de Polytechnique, H3T 1J4, Montréal Administrative region : Montréal Province : Quebec Country : Canada Telephone : +1-514-340-4711 Website : https://www.polymtl.ca/lm2/en
Le Laboratoire de Mécanique Multiscale (LM2) du Département de génie mécanique de Polytechnique Montréal rassemble cinq professeurs spécialisés dans la fabrication additive (Daniel Therriault), la mécanique des structures élancées (Frédérick Gosselin), la mécanique multi-échelle (Martin Lévesque), la modélisation et la simulation des structures origami intelligentes (David Melancon), ainsi que les matériaux et structures intelligents (Sampada Bodkhe). Les recherches menées au LM2 portent principalement sur les polymères, les composites polymères, les nanocomposites, les métaux et la matière vivante. Les laboratoires du LM2 disposent d'équipements et d'installations variés liés au traitement, à la fabrication et à la caractérisation de nano, micro et macro-systèmes, comprenant notamment plusieurs imprimantes 3D commerciales et industrielles, des plates-formes de fabrication additive avancées personnalisées (telles que l'impression assistée par robot à 6 axes, l'impression multi-matériaux multi-processus), des robots de distribution, des équipements de mélange (par exemple, une micro-extrudeuse) et des microscopes optiques. Le LM2 accorde une grande importance à la collaboration, au respect, au travail d'équipe et à l'amélioration continue. Nous croyons que la prise en compte d'une large gamme d'idées et de points de vue, ainsi que la création d'un environnement où chacun se sent valorisé et capable de participer pleinement, conduisent à des résultats de recherche plus robustes et innovants.
Publications 2016_Farahani_Three-dimensional_printing_multifunctional_nanocomposites_manufacturing.pdf 2017_Bodkhe_One-step_solvent_evaporation-assisted_3D_printing.pdf 2016_Chizari_3D_printing_highly_conductive_nanocomposites.pdf 2020 _Rafiee_Multi‐Material 3D and 4D Printing A Survey.pdf 2022_Tao_Fused filament fabrication of PVDF films for piezoelectric sensing and energy harvesting applications.pdf 2022_Tao_Multi-material freeform 3D printing of flexible piezoelectric composite sensors using a supporting fluid.pdf 2022-Abderrafai_Additive manufacturing of short carbon fiber-reinforced polyamide.pdf 2023_Hia_Electrically conductive and 3D-printable copolymer-MWCNT nanocomposites for strain sensing.pdf
Member's profile
Main application areas for your AM projects and business contracts : Aerospace and defence Construction, building and infrastructure Telecommunications equipment
AM workflow steps : Product/process optimization Design and modelling
Processes Used : Photopolymerization - ALS Photopolymerization - DLP Material extrusion - FDM/FFF
AM-related materials, (powders, etc.) : Metals Polymers Ceramics Composites
AM-related machinery and accessories : Mixers Extruders
Member's profile
3D Printer Fleet
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Description Raise3D Pro 2
Processes Material extrusion - FDM/FFF
Materials available on this machine PLA, ABS
Maximum 3D part dimensions (inches) / L x W x H 12 x 12 x 11.8
Number of machines (specify) 4
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Description AON3D-M2
Processes Material extrusion - FDM/FFF
Materials available on this machine PEEK, PEEK/CF, PPS/CF, PEI (ULTEM), PEI/CF
Maximum 3D part dimensions (inches) / L x W x H 18 x 18 x 25
Number of machines (specify) 2
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Description Fanuc 6-axis robot
Processes Material extrusion - FDM/FFF
Materials available on this machine PLA, PEEK, PEEK/CF
Number of machines (specify) 1
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Description AEROTECH Air bearing gantry system
Processes Material extrusion - FDM/FFF
Materials available on this machine PLA, PVDF and Direct Write 3D printing inks usually in form of a viscous liquid that solidifies after extrusion due to either solvent evaporation or curing using UV light.
Maximum 3D part dimensions (inches) / L x W x H with heated bed: 12 x 12 x 3.5; without heated bed: 12 x 12 x 6 inches
Number of machines (specify) 1
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Description Bambulab X1E
Processes Material extrusion - FDM/FFF
Materials available on this machine PLA, PLA/CF, ABS, PETG, ASA, PC, PC/CF, PA/CF, PET/CF, PVA
Maximum 3D part dimensions (inches) / L x W x H 10 x 10 x 10
Number of machines (specify) 2
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Description Creality Ender 3 V2 (Modified with IDEX kit)
Processes Material extrusion - FDM/FFF
Materials available on this machine PLA, ABS, PETG
Maximum 3D part dimensions (inches) / L x W x H 8.7 x 8.7 x 9.8
Number of machines (specify) 3
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Description PRUSA i3 MK3S+ (w/ multi-material unit [MMU])
Processes Material extrusion - FDM/FFF
Materials available on this machine PLA, ABS, PETG
Maximum 3D part dimensions (inches) / L x W x H 9.84 x 8.27 x 8.27
Number of machines (specify) 1
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Description Fisnar Dispensing Robot - Direct Write 3D printing
Processes Material extrusion - FDM/FFF
Materials available on this machine Direct Write 3D printing inks usually in form of a viscous liquid that solidifies after extrusion due to either solvent evaporation or curing using UV light.
Maximum 3D part dimensions (inches) / L x W x H 7.9 x 7.9 x 2.0
Number of machines (specify) 1
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Description Flashforge Foto 8.9 (4K Resolution) DLP 3D Printer
Processes Photopolymerization - DLP
Materials available on this machine LCD Resin – white, grey and beige
Maximum 3D part dimensions (inches) / L x W x H 7.6 x 4.7 x 7.9
Number of machines (specify) 1
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Description Formlabs – Form 2 and Form 3
Processes Photopolymerization - ALS
Materials available on this machine UV-curable resins from Formlabs (e.g., Gray, Flexible, Elastic, Tough, High-Temp, Draft)
Maximum 3D part dimensions (inches) / L x W x H 5.7 x 5.7 x 6.9
Number of machines (specify) 2
Member's profile
Contact info
Sampada Bodkhe
Contact resource person
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