Robotic Fabrication with C2H3NaO2
ARM additive robotic materialization 08th-16th August 2013
http://vunzooke.com/coloured-scanning-electron-micrograph.html
http://flickriver.com/photos/zpyder/7041786723/
Ching-hang Lee Ming-han Lee Chih-chien Peng Kun-ta Hsieh http://www.sergeyphoto.com/underwater/galapagos/pricklypearcactus1a.html
Robotic Fabrication with C2H3NaO2
Type01 Quadrilateral
Type02 Round
Type03 Hexagonal
Type04 Triangle
Type05 Frame
Robotic Fabrication with C2H3NaO2
Na2co3 Material Experiment 01
Robotic Fabrication with C2H3NaO2
Route Top View
Robotic Fabrication with C2H3NaO2
Route Perspective View
Robotic Fabrication with C2H3NaO2
Dripping Method/Convention Direction & Speed
Dripping Method/Modification Direction & Speed
Height GL
GL
Speed range from 2 to 10 Lower speed Higher speed to maintain the descending curvature while dripping
Robotic Fabrication with C2H3NaO2
Na2co3 Material Experiment 02
Robotic Fabrication with C2H3NaO2
Dripping Method/Modification Direction & Speed
Accidental Effects Emergent pattern
Height GL
Controlling The dripping and moving speed still can not connect the deccanding curve.
Robotic Fabrication with C2H3NaO2
Rising curve Descanding curve
Robotic Fabrication with C2H3NaO2
Fibrous System Center-oriented
Fibrous System Random-oriented
Robotic Fabrication with C2H3NaO2
Density difference Center-oriented
Density difference Random-oriented
Robotic Fabrication with C2H3NaO2
Opening difference Center-oriented
Opening difference Random-oriented
Robotic Fabrication with C2H3NaO2
Fibrous Surface Simulation