Natural Form(s)

case study of a spatial framework composed of naturally grown forked branches

Wissenschaftliche Veröffentlichung

Autor*innen

Daniela Kröhnert , Andrea Rossi , Matthew Tam , Lukas Allner

Herausgeber*innenschaft

International Association for Space and Spatial Structures , International Centre for Numerical Methods in Engineering (CIMNE)

Ort, Datum

Barcelona, Spanien, 2019

Schlagwörter

Architektur, Tragwerkslehre, Rauminstallation, Environment, Nachhaltiges Bauen, Raumkunst

ISBN/ISSN/ISMN, DOI

ISBN/ISSN/ISMN:: 978-84-121101-0-4

URL

http://congress.cimne.com/formandforce2019/frontal/default.asp

Text

Abstract: Wood as a construction material not only serves as a sustainable resource but also offers the potential to develop complex structural models (and architectural spaces) that are derived from its complex material logic. This paper proposes an experimental methodology for the design of spatial frameworks that utilize natural forked branches as structural components. Computational methods such as 3Dscanning and parametric structural analysis tools allow designers to cope with the irregular complexity of the natural material. This paper presents a comprehensive digital workflow leading to the robotic fabrication of a medium scaled demonstrator.

Sprache, Format, Material, Ausgabe/Auflage

Englisch

Conceptual Joining, From Detail To Utopia

Künstlerisches Forschungsprojekt, Universität für Angewandte Kunst Wien

Veröffentlicht Von: Lukas Allner | Universität für Angewandte Kunst Wien | Veröffentlicht Am: 09. Mai 2022, 10:17 | Geändert Am: 24. November 2022, 09:03