New Autodesk System Streamlines 3D Printing of Large, Complex Objects
A team of engineers at Autodesk have been pushing the limitations of conventional 3D printing -- not by redesigning the machines themselves, but by creating a network to harness their collective power. Autodesk's "Project Escher" is a new printing system that utilizes the power of several 3D printers at once to fabricate complex parts in unison, reports FastCoDesign. The new system can increase production speed by up to 90%.Â
A team of engineers at Autodesk have been pushing the limitations of conventional 3D printing -- not by redesigning the machines themselves, but by creating a network to harness their collective power. Autodesk's "Project Escher" is a new printing system that utilizes the power of several 3D printers at once to fabricate complex parts in unison, reports FastCoDesign. The new system can increase production speed by up to 90%. While the benefits of 3D printing are undeniable, its lengthy process has impeded it from being rolled out in large-scale additive manufacturing. Designers in industries such as automotive, aerospace and construction want to utilize the power of 3D printing to form complex geometries, but as the printing is measured in weight per hour, large objects can take impossibly long amounts of time. Project Escher uses a gantry system with suspended 3D printing "bots," selectively assigning a part of the model to each, producing a fully assembled final object. Autodesk's har...
A team of engineers at Autodesk have been pushing the limitations of conventional 3D printing -- not by redesigning the machines themselves, but by creating a network to harness their collective power. Autodesk's "Project Escher" is a new printing system that utilizes the power of several 3D printers at once to fabricate complex parts in unison, reports FastCoDesign. The new system can increase production speed by up to 90%. While the benefits of 3D printing are undeniable, its lengthy process has impeded it from being rolled out in large-scale additive manufacturing. Designers in industries such as automotive, aerospace and construction want to utilize the power of 3D printing to form complex geometries, but as the printing is measured in weight per hour, large objects can take impossibly long amounts of time. Project Escher uses a gantry system with suspended 3D printing "bots," selectively assigning a part of the model to each, producing a fully assembled final object. Autodesk's har...
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