On designing plane-faced funicular gridshells

On designing plane-faced funicular gridshells

Concepts from isotropic geometry, Timoshenko’s shell theory, Airy stress functions and Maxwell’s reciprocal diagrams are combined in the design of plane-faced funicular gridshells. The notions of self-Airy and mixed-Airy gridshells are introduced, with an emphasis on self-tied gridshells. This paper...

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Veröffentlicht in:International journal of space structures 2023-03, Vol.38 (1), p.40-63
Hauptverfasser: Millar, Cameron, Mitchell, Toby, Mazurek, Arek, Chhabra, Ashpica, Beghini, Alessandro, Clelland, Jeanne N, McRobie, Allan, Baker, William F
Format: Artikel
Sprache:eng
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Zusammenfassung:Concepts from isotropic geometry, Timoshenko’s shell theory, Airy stress functions and Maxwell’s reciprocal diagrams are combined in the design of plane-faced funicular gridshells. The notions of self-Airy and mixed-Airy gridshells are introduced, with an emphasis on self-tied gridshells. This paper extends the work of J.C. Maxwell for 2D pin-jointed trusses to 2.5D gridshells with the addition of a new reciprocal figure called the slope diagram. The form, force and slope diagrams are combined by a mixed area calculation to produce another new figure called the Maxwell-Mondrian diagram. A powerful new design process leveraging the relationship between the gridshell geometry and the Airy stress function is presented.
ISSN:0956-0599
2059-8033
DOI:10.1177/09560599221126656