Inventory constrained funicular modelling
Date
2019
Authors
Baber, K.R.
Burry, J.R.
Chen, C.
Gattas, J.M.
Bukauskas, A.
Editors
Lazaro, C.
Bletzinger, K.U.
Onate, E.
Bletzinger, K.U.
Onate, E.
Advisors
Journal Title
Journal ISSN
Volume Title
Type:
Conference paper
Citation
Proceedings of the 60th Anniversary Symposium of the International Association for Shell and Spatial Structures (IASS 2019): FORM and FORCE, 2019 / Lazaro, C., Bletzinger, K.U., Onate, E. (ed./s), pp.524-533
Statement of Responsibility
Kim R. Baber, Jane R. Burry, Canhui Chen, Joseph M., Gattas and Aurimas Bukauskas
Conference Name
60th Anniversary Symposium of the International Association for Shell and Spatial Structures (IASS) (7 Oct 2019 - 10 Oct 2019 : Barcelona, Spain)
Abstract
This paper investigates the development of a digital form finding model that combines the generation of funicular geometry with a material inventory constraint. The model provides a flexible design tool that facilitates exploration of structural form whilst simultaneously satisfying two rationalizing criteria. It maintains an equilibrated structure derived from funicular geometry; and optimally assigns an inventory of parts with natural dimensional variation to this funicular geometry. The combined goal for the design outcome is to achieve material efficiency through both structurally rational form, and minimization of material waste. The material chosen for the inventory is below-grade sawn timber1, being lightweight but with high levels of naturally occurring structural variability. Sawn timber boards that are rejected for structural application due to their frequent structural defects (knots, checks, splits etc.) can readily yield usable short length structural members, once the defects are removed. In doing so, this provides a unique inventory of random short members. These short members are well suited to articulated structures, which, by employing an inverted funicular geometry, only incur axial stresses and can employ simple non-moment timber connections. This research has been undertaken for the design of the pavilion for the “Working Group 21 – Advanced Manufacturing and Materials” exhibition at the IASS Symposium 2019.
School/Discipline
Dissertation Note
Provenance
Description
Access Status
Rights
© author(s)