Search results for "Impression 4D"

showing 5 items of 5 documents

Proactive design and formalization of related spatiotemporal knowledge : application to assembly process and additive manufacturing with smart materi…

2019

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MéréotopologieMatériaux intelligentsProactive designFabrication additiveVoxelOntologyAdditive manufacturing[SPI] Engineering Sciences [physics]Smart materialsOntologie4D printingPLMMereotopologyConception proactiveImpression 4D[SPI.MECA.GEME]Engineering Sciences [physics]/Mechanics [physics.med-ph]/Mechanical engineering [physics.class-ph][SPI]Engineering Sciences [physics]Advanved CADCAO avancéeVoxels[SPI.MECA.GEME] Engineering Sciences [physics]/Mechanics [physics.med-ph]/Mechanical engineering [physics.class-ph]
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Conception basée sur les origamis pour l'impression 4D de structures déployables

2020

Deployable structures can be deformed between the different configurations through predetermined mechanisms, showing the great potential in many engineering applications. However, their exquisite and intricate mechanisms also bring a great difficulty to the design of its structure. With the growing 4D printing efforts, its self-transforming characteristics under external stimuli provide new possibilities for deploying complex and challenging driving structures. Furthermore, origami-based engineering has provided tremendous technical support for structural conversion, especially from 2D to 3D states, leading to many design studies based on origami-inspired deployable structures. However, the…

[SPI.OTHER]Engineering Sciences [physics]/OtherOrigami-Based designMatériaux intelligentsStructure déployableFabrication additive[SPI.OTHER] Engineering Sciences [physics]/OtherAdditive manufacturingConception des produits[PHYS.MECA.GEME] Physics [physics]/Mechanics [physics]/Mechanical engineering [physics.class-ph]Smart materials[PHYS.MECA.GEME]Physics [physics]/Mechanics [physics]/Mechanical engineering [physics.class-ph]4D PrintingConception à base d'origamiImpression 4DProduct designDeployable structure
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Intégration proactive des métiers en conception et formalisation des connaissances spatio-temporelles associées : application à l'assemblage et à la …

2019

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MéréotopologieProactive design[SPI] Engineering Sciences [physics]Additive manufacturingadvanced CADOntologie4D printingconception pour l'X[SPI.MECA] Engineering Sciences [physics]/Mechanics [physics.med-ph]PLM[SPI]Engineering Sciences [physics]CAO avancéeontologies[SPI.MECA.GEME] Engineering Sciences [physics]/Mechanics [physics.med-ph]/Mechanical engineering [physics.class-ph]design for XMatériaux intelligentsFabrication additiveVoxelOntologySmart materials[SPI.MECA]Engineering Sciences [physics]/Mechanics [physics.med-ph]MereotopologyConception proactiveImpression 4D[SPI.MECA.GEME]Engineering Sciences [physics]/Mechanics [physics.med-ph]/Mechanical engineering [physics.class-ph]Advanved CADVoxels
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Knowledge formalization and recommendation in computational design synthesis for 4D printing

2022

Coined in 2013, 4D printing is considered as a promising technology that combines additive manufacturing (AM) processes and smart materials (SMs). Through this technology objects can change over time in terms of functionalities, shape, or properties under the effect of energy stimulation. Although AM processes allow shape, hierarchical, functional, and materials complexities to the 3D objects, the conjunction with SMs provides much more freedom in designing adaptive/transformative structures. Over the last decade, a growing body of research with ad hoc proofs-of-concept have been proposed at the physical level (i.e., by using different AM processes with commercial or customized 3D printers …

KnowledgeRecommandationOntology[SPI.OTHER] Engineering Sciences [physics]/OtherComputational design synthesisOntologie4D printingRecommendationConnaissanceConceptionImpression 4D
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A holistic approach to design for 4D Printing

2019

Invented in 1983, as a rapid prototyping process, additive manufacturing (AM) is nowadays considered as a manufacturing process almost in the same way as conventional processes. For example, parts obtained by AM are found in aircraft structures. This AM evolution is mainly due to the shape complexity allowed by the process. The driving forces behind this evolution include: the development of various techniques on the layer-wise manufacturing principle and the improvement both in quantity and quality of the range of materials that can be processed. Many other AM techniques and materials continue to emerge. In the wake of the AM (usually referred to as 3D printing) another mode of manufacturi…

Matériaux intelligentsFabrication additiveConception pour l’impression 4DAdditive manufacturingDfamDesign for 4D Printing (Df4DP)Voxel-Based modelingSmart materials4D printingImpression 4D[PHYS.MECA.MEMA]Physics [physics]/Mechanics [physics]/Mechanics of materials [physics.class-ph][PHYS.MECA.MEMA] Physics [physics]/Mechanics [physics]/Mechanics of materials [physics.class-ph]Modélisation à base de voxelsConception pour la fabrication additive
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