Modelling and simulation of the behavior of a shape memory membrane for programmable matter 4D prototyping

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TitreModelling and simulation of the behavior of a shape memory membrane for programmable matter 4D prototyping
Type de publicationJournal Article
Year of Publication2019
AuteursEnnaji M, Tayane S, Gaber J
JournalSYSTEMS RESEARCH AND BEHAVIORAL SCIENCE
Volume36
Pagination835-844
Date PublishedNOV
Type of ArticleArticle
ISSN1092-7026
Mots-clés4D prototyping, Composite membrane, modelling and simulation, programmable matter, Shape memory alloys
Résumé

In almost all areas of the industry and more generally in the sector of development of manufacturing products, the realization of the product passes through several successive stages going from the design to the realization of the product. The most critical phase is prototyping because it is at this point that usually the most important decisions are made. In several sectors this step is very expensive, and in any case, the prototype undergoes several modifications and requires several validations before it is definitive for the transition to production. The prototype must generally constitute a model of the product that has all or part of the technical qualities and operating characteristics that must appear in the final product, to demonstrate or affirm the validity of the concept and thus its final validation, which increases the overall cost of the prototyping phase. In the vast majority of prototyping devices available for the moment, be it by additive or subtractive process, the realization of the prototype requires a lot of time, and once the prototype is made, it can only be modified by destructive techniques because the materials used are frozen and do not allow easy reuse. This study proposes a device for the prototyping of product, allowing a modification of the geometry of the prototype by means of a deformable composite membrane with shape memory, reusable and programmable. The device in question consists of a flexible composite membrane whose matrix is a flexible polymer, and the reinforcement is a shape-memory alloy fibre and rubber effect, having a given electrical resistance. These shape memory fibres are woven in such a way as to ensure deformations in the direction normal to the plane of the membrane by injecting the current into each fibre. This is ensured by a cross weave allowing the control of the direction of the overall deformation through the deformation specific to each fibre. In this research work, we present the results of the modelling and simulation of the behaviour of a composite membrane with shape memory.

DOI10.1002/sres.2650