We introduce a parametric modeling method in the field of computer-aided architectural conception, which aims to produce non-standard wooden walls and envelopes with CNC machinery. This method explores the application of polygonal cellular structures (as patterns) on facade and envelope interventions for new and old projects. We innovate by bringing the 3D production environment complexity into the conception model to improve the production of manifold woodworking items by CNC (Computer Numerical Control) 3D fabrication. A recent experimentation, tests the entire workflow from parametric modeling to production of two full-scale prototypes. The results prove the range of inputs offered by the method to be functional, though it needs various improvements in order to optimize parametric modeling and digital fabrication procedures. Future research will focus on treating a wider range of joints via parametric modeling and deal with joint creation regardless wall deformation to expand the morphological approach of non-standard wooden walls design.
[1]
Andres Sevtsuk,et al.
A freeform surface fabrication method with 2D cutting
,
2014,
ANSS 2014.
[2]
Lawrence Sass,et al.
THE INSTANT HOUSE: Design and digital fabrication of housing for developing environments
,
2006,
CAADRIA proceedings.
[3]
W. Weaver.
Science and complexity.
,
1948,
American scientist.
[4]
Felix C. Klein,et al.
A comparative review of recent researches in geometry
,
1893,
0807.3161.
[5]
Joshua Draper,et al.
Non-Uniform Assemblage: Mass Customization in Digital Fabrication
,
2008
.
[6]
Anthony Burke.
The Urban Complex: Scalar Probabilities and Urban Computation
,
2010
.
[7]
Branko Kolarevic,et al.
Architecture in the Digital Age: Design and Manufacturing
,
2004
.
[8]
Lawrence Sass.
Synthesis of design production with integrated digital fabrication
,
2007
.