Material behaviour computes form. In the physical world, material form is always inseparably connected to internal constraints and external forces; in the virtual space of digital design, though, form and force are usually treated as separate entities – divided into processes of geometric form generation and subsequent engineering simulation. Using the example of the interdisciplinary ICD/ITKE Research Pavilion, constructed at the University of Stuttgart in 2010, Moritz Fleischmann, Jan Knippers, Julian Lienhard, Achim Menges and Simon Schleicher explain how feedback between computational design, advanced simulation and robotic fabrication expands the design space towards previously unexplored architectural possibilities.
%0 Journal Article
%1 fleischmann2012material
%A Fleischmann, M.
%A Knippers, Jan
%A Lienhard, Julian
%A Menges, Achim
%A Schleicher, Simon
%D 2012
%E Wiley Academy, London
%J Architectural Design
%K 2012 architecture behaviour computational design embedding fleischmann from:petraheim itke knippers lienhard material menges physical process properties robotic schleicher
%N No. 2
%P 44 – 51
%T Material Behaviour: Embedding Physical Properties in Computational Design Processes
%V Vol. 82
%X Material behaviour computes form. In the physical world, material form is always inseparably connected to internal constraints and external forces; in the virtual space of digital design, though, form and force are usually treated as separate entities – divided into processes of geometric form generation and subsequent engineering simulation. Using the example of the interdisciplinary ICD/ITKE Research Pavilion, constructed at the University of Stuttgart in 2010, Moritz Fleischmann, Jan Knippers, Julian Lienhard, Achim Menges and Simon Schleicher explain how feedback between computational design, advanced simulation and robotic fabrication expands the design space towards previously unexplored architectural possibilities.
@article{fleischmann2012material,
abstract = {Material behaviour computes form. In the physical world, material form is always inseparably connected to internal constraints and external forces; in the virtual space of digital design, though, form and force are usually treated as separate entities – divided into processes of geometric form generation and subsequent engineering simulation. Using the example of the interdisciplinary ICD/ITKE Research Pavilion, constructed at the University of Stuttgart in 2010, Moritz Fleischmann, Jan Knippers, Julian Lienhard, Achim Menges and Simon Schleicher explain how feedback between computational design, advanced simulation and robotic fabrication expands the design space towards previously unexplored architectural possibilities.},
added-at = {2020-05-22T14:26:20.000+0200},
author = {Fleischmann, M. and Knippers, Jan and Lienhard, Julian and Menges, Achim and Schleicher, Simon},
biburl = {https://puma.ub.uni-stuttgart.de/bibtex/27c25ceb2916d0d4d68004431d4f5ddc7/itke},
editor = {Wiley Academy, London},
interhash = {7e43b49bdb7013207663634d1bcbef83},
intrahash = {7c25ceb2916d0d4d68004431d4f5ddc7},
journal = { Architectural Design},
keywords = {2012 architecture behaviour computational design embedding fleischmann from:petraheim itke knippers lienhard material menges physical process properties robotic schleicher},
language = {eng},
number = {No. 2},
pages = {44 – 51},
timestamp = {2020-06-29T14:56:37.000+0200},
title = {Material Behaviour: Embedding Physical Properties in Computational Design Processes},
volume = {Vol. 82 },
year = 2012
}