Visible to the public CPS: Synergy: Converting Multi-Axis Machine Tools into Subtractive3D Printers by using Intelligent Discrete Geometry Data Structures designed for Parallel and Distributed ComputingConflict Detection Enabled

Project Details
Lead PI:Thomas Kurfess
Co-PI(s):Richard Vuduc
Performance Period:09/01/13 - 08/31/16
Institution(s):Georgia Tech Research Corporation
Sponsor(s):National Science Foundation
Award Number:1329742
381 Reads. Placed 310 out of 803 NSF CPS Projects based on total reads on all related artifacts.
Abstract: This grant provides funding for the formulation of a data model, and trajectory planning platform and methodology to execute a fully digital 3D, 5-axis machining capability. Research will be performed on methods for utilizing multiple Graphical Processor Units (GPUs), which are readily available, parallel digital processing hardware, in these calculations. The methodology will be implemented in the context of an existing advanced computational framework that has tools for voxelization, variable resolution digital modeling, and parallel computing, integrating the fields of manufacturing and computer science. Experiments involving 5-axis machining will be executed to validate the methodology. Components will be machined and inspected on a coordinate measurement machine to verify that the target geometry has been achieved. If successful, this work will bring classical subtractive manufacturing back into the arsenal of rapid prototyping, providing users of typical CNC machine tools with the ability to rapidly determine if a part can be produced on a specific machine and machine the part. Having such a design and analysis tool will help to reduce the cost, improve the quality and allow rapid deployment of new innovations in components that require machining. This work will contribute to variable resolution digital representations to be employed in next generation digital manufacturing systems. It will also combine state-of-the-art concepts in computing and manufacturing to realize a completely new a cyber-physical approach to manufacturing.
AttachmentTaxonomyKindSize
Subtractive 3D Printing with Machine Tools using HPCPDF document10.39 MBDownloadPreview
Converting Multi-Axis Machine Tools into Subtractive 3D Printers by using Intelligent Discrete Geometry Data StructuresPDF document6.93 MBDownloadPreview
Converting Multi-Axis Machine Tools into Subtractive 3D Printers by using Intelligent Discrete Geometry Data StructuresPowerPoint presentation4.23 MBDownloadPreview
Converting Multi-Axis Machine Tools into Subtractive3D Printers by using Intelligent Discrete Geometry Data StructuresPowerPoint presentation6.83 MBDownloadPreview