The list of materials that can be produced by 3-D printing has grown to include not just plastics but also metal, glass, and even food.
Now, MIT researchers are expanding the list further, with the design of a system that can 3-D print the basic structure of an entire building Structures built with this system could be produced faster and less expensively than traditional construction methods allow.
A building could also be completely customized to the needs of a particular site and the desires of its maker. Even the internal structure could be modified in new ways; different materials could be incorporated as the process goes along, and material density could be varied to provide optimum combinations of strength, insulation, or other properties. Ultimately, this approach could enable the design and construction of new kinds of buildings that would not be feasible with traditional building methods.
The robotic system is described this week in the journal Science Robotics, The system consists of a tracked vehicle that carries a large, industrial robotic arm, which has a smaller, precision-motion robotic arm at its end. This highly controllable arm can then be used to direct any conventional construction nozzle, such as those used for pouring concrete or spraying insulation material, as well as additional digital fabrication end effectors, such as a milling head. Most of the typical 3-D printing systems use some kind of an enclosed, fixed structure to support their nozzles and are limited to building objects that can fit within their overall enclosure. But this free-moving system can construct an object of any size. As a proof of concept, the researchers used a prototype to build the basic structure of the walls of a 50-foot-diameter, 12-foot-high dome — a project that was completed in less than 14 hours of “printing” time. The researchers call this system as Digital Construction Platform (DCP).
