Une idée à creuser... 

Construction de la structure d'un dôme géodésique avec l'aide d'une imprimante 3 D. 

Vous pouvez télécharger les pièces à imprimer sur  http://www.thingiverse.com/thing:8985
ou sur http://domekit.cc
Si vous voulez modifier l'échelle des pièces, il faudra les ouvrir dans openSCAD "logiciel gratuit".
Bonne impression

Instructions
There are two types of hubs, a 5- and 6-way, and one type of strutcap that will snap into the sockets on either. A completed connector must have all of it's sockets filled with strutcaps in order to have proper tension. Start by printing off a 6-way hub and 6 strutcaps. See if you can snap all of the 'caps into the hub. The last one might take some force; you can push down against a table for some leverage. You're looking to get the tightest fit possible whilst still retaining a good range of motion. It should be difficult to get them out once you've put them all in. We suggest trying to adapt the hubs to fit the strutcaps, either by scaling it using replicatorG or tuning your skeinforge settings. If all else fails, jump into the hub.scad file and tweak the expansion_factor variable.
The strutcaps have a hole that should accept an M3 nut. A 10mm M3 bolt should pass through the side of the connector, through the nut, and push against the strut when tightened. The strutcap shafts are designed to work with 3/8" / 10mm strut poles.
A 2V icosahedron requires 26 connectors (20 x 6-way, 6 x 5-way) for a total of 176 parts. A 3V 5/9 requires 61 connectors (55 x 6-way, 6 x 5-way) for a total of 421 parts. The 6-way connectors against the bottom of the sphere are techically 4-way connections, but you can fold up two of the strut caps to make a flat-bottomed connector. Sure, we could have made a separate 4-way connector, but doing so would have increased the inventory of parts you'll need to keep track of.