The fabrication and application of parametric inflatable structure

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CHIA, HSU YI; HSIEN, HSU PEI

Artigo:

This study uses parametric design to optimize the process and application of the inflatable method. Inflatable design has advantages of light weight, integral forming, volume change, etc., but the manufacturing process often requires the development of molds, a large number of manual heat seals, etc. Inspired by the structure principle of amputated wing tube structure, coupled with the advantages of parameterization and digital tool heat sealing, The same material can be made at different tightness, because the tight design with different angles has more structural characteristics and bending properties, thereby generating more complex spatial structures. Different materials also have corresponding manufacturing methods, which also increase the opportunities for application in architectural design.

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Palavras-chave:

DOI: 10.5151/sigradi2018-1609

Referências bibliográficas

• [1] Heibeck & Chin-Yi Cheng & Jannik Peters & Hiroshi Ishii (2016). aeroMorph - Heat-sealing Inflatable Shape-change Materials for Interaction Design [2] Olivier Béthoux (2008). Groundplan, nomenclature, homology, phylogeny, and The question of the insect wing venation pattern [3] Harpreet Sareen & Udayan Umapathi & Patrick Shin & Yasuaki Kakehi & Jifei Ou & Hiroshi Ishii & Pattie Maes. (2014). Printflatables: Printing Human-Scale, Functional and Dynamic Inflatable Objects 3D printing of textile-based

Como citar:

CHIA, HSU YI; HSIEN, HSU PEI; "The fabrication and application of parametric inflatable structure", p-684-689. In: . São Paulo: Blucher, 2018.
ISSN 23186968, DOI 10.5151/sigradi2018-1609