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Parametric design tool for a bio-based tensile structure / Léo BONMARCHAND 

Public ISBD Titre : Parametric design tool for a bio-based tensile structure Type de document : Travail de fin d'études Auteurs : Léo BONMARCHAND, Auteur ; Diederik VEENENDAAL, ; Luigi VULLO, Editeur : ECAM Année de publication : 2023 Note générale : Summum Engineering Langues : Anglais (eng) Index. décimale : TFE - Construction Résumé : In the current context of architecture and construction, we have no other choice than improving the way we build to reduce the impact we have on our environment. Using better materials and optimizing structures are solutions to build in a more sustainable way. This thesis presents a parametric design tool for a bamboo and tensile dome structure planned to be built in the Philippines. Bamboo and tensile structures are recognized for their innovative and environmentally-friendly characteristics, and the use of parametric design offers a powerful approach to optimize their design process. The parametric design tool developed in this research employs algorithms and computational techniques to generate and evaluate design options based on user-defined parameters. It allows the manipulation of key parameters related to form, structure, and material properties in order to find the best solution for the project. The research encompasses a comprehensive literature review on parametric design, bamboo structures and tensile structures, in addition, this thesis includes a comparative analysis between bio-based materials, such as bamboo or bio-based fabric, and traditionally used materials in the context of construction, highlighting the environmental and sustainable advantages of bio-based materials while considering their limits. Future research directions are suggested for further advancement in this area. Parametric design tool for a bio-based tensile structure [Travail de fin d'études] / Léo BONMARCHAND, Auteur ; Diederik VEENENDAAL, ; Luigi VULLO,  . - ECAM, 2023. Summum Engineering Langues : Anglais (eng) Index. décimale : TFE - Construction Résumé : In the current context of architecture and construction, we have no other choice than improving the way we build to reduce the impact we have on our environment. Using better materials and optimizing structures are solutions to build in a more sustainable way. This thesis presents a parametric design tool for a bamboo and tensile dome structure planned to be built in the Philippines. Bamboo and tensile structures are recognized for their innovative and environmentally-friendly characteristics, and the use of parametric design offers a powerful approach to optimize their design process. The parametric design tool developed in this research employs algorithms and computational techniques to generate and evaluate design options based on user-defined parameters. It allows the manipulation of key parameters related to form, structure, and material properties in order to find the best solution for the project. The research encompasses a comprehensive literature review on parametric design, bamboo structures and tensile structures, in addition, this thesis includes a comparative analysis between bio-based materials, such as bamboo or bio-based fabric, and traditionally used materials in the context of construction, highlighting the environmental and sustainable advantages of bio-based materials while considering their limits. Future research directions are suggested for further advancement in this area.

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