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Multimaterial Knit Skins: A Design-to-Fabrication Workflow for Mass Customized Freeform Membrane Panels

Multimaterial Knit Skins: A Design-to-Fabrication Workflow for Mass Customized Freeform Membrane... This paper presents a design-to-fabrication workflow to customize multimaterial CNC knitted textiles to form nonstandardized and nondeveloped curved surfaces for façade cladding skins. These are bespoke membrane panels knitted with heterogenous elasticity and shaped out-of-plane by bendable rods to form pre-tensioned 3D freeform surfaces without needing conventional cut-and-join processes. This research culminates in the Knit Patterned Flow pavilion. The workflow is implemented across 35 uniquely shaped scalloped panels assembled as a modular paneling system to create a visually continuous spatial envelope. http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png Technology Architecture + Design Taylor & Francis

Multimaterial Knit Skins: A Design-to-Fabrication Workflow for Mass Customized Freeform Membrane Panels

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Multimaterial Knit Skins: A Design-to-Fabrication Workflow for Mass Customized Freeform Membrane Panels

Tan, Ying Yi; Chia, Pei Zhi; Quek, Yu Han; Tracy, Kenneth Joseph; Yogiaman, Christine
Technology Architecture + Design , Volume 6 (2): 16 – Jul 3, 2022

Abstract

This paper presents a design-to-fabrication workflow to customize multimaterial CNC knitted textiles to form nonstandardized and nondeveloped curved surfaces for façade cladding skins. These are bespoke membrane panels knitted with heterogenous elasticity and shaped out-of-plane by bendable rods to form pre-tensioned 3D freeform surfaces without needing conventional cut-and-join processes. This research culminates in the Knit Patterned Flow pavilion. The workflow is implemented across 35 uniquely shaped scalloped panels assembled as a modular paneling system to create a visually continuous spatial envelope.

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References (27)

Publisher
Taylor & Francis
Copyright
© 2022 Association of Collegiate Schools of Architecture
ISSN
2475-143x
eISSN
2475-1448
DOI
10.1080/24751448.2022.2116239
Publisher site
See Article on Publisher Site

Abstract

This paper presents a design-to-fabrication workflow to customize multimaterial CNC knitted textiles to form nonstandardized and nondeveloped curved surfaces for façade cladding skins. These are bespoke membrane panels knitted with heterogenous elasticity and shaped out-of-plane by bendable rods to form pre-tensioned 3D freeform surfaces without needing conventional cut-and-join processes. This research culminates in the Knit Patterned Flow pavilion. The workflow is implemented across 35 uniquely shaped scalloped panels assembled as a modular paneling system to create a visually continuous spatial envelope.

Journal

Technology Architecture + DesignTaylor & Francis

Published: Jul 3, 2022

Keywords: Functionally Graded Materials; Textile Membranes; Mass Customization; CNC Knitting

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