Suman Das
Morris M. Bryan, Jr. Chair and Professor, Woodruff School of Mechanical Engineering
Director, Direct Digital Manufacturing Laboratory
404.385.6027
Office Location:
MARC 255
Direct Digital Manufacturing Laboratory
University, College, and School/Department
Additional Research:
3D printing; Additive/Advanced Manufacturing; Biomaterials; Composites; Emerging Technologies; Nanocomposites; Nanomanufacturing; Manufacturing, Mechanics of Materials, Bioengineering, and Micro and Nano Engineering. Advanced manufacturing and materials processing of metallic, polymeric, ceramic, and composite materials for applications in life sciences, propulsion, and energy. Professor Das directs the Direct Digital Manufacturing Laboratory and Research Group at Georgia Tech. His research interests encompass a broad variety of interdisciplinary topics under the overall framework of advanced design, prototyping, direct digital manufacturing, and materials processing particularly to address emerging research issues in life sciences, propulsion, and energy. His ultIMaTe objectives are to investigate the science and design of innovative processing techniques for advanced materials and to invent new manufacturing methods for fabricating devices with unprecedented functionality that can yield dramatic improvements in performance, properties and costs.
3D printing; Additive/Advanced Manufacturing; Biomaterials; Composites; Emerging Technologies; Nanocomposites; Nanomanufacturing; Manufacturing, Mechanics of Materials, Bioengineering, and Micro and Nano Engineering. Advanced manufacturing and materials processing of metallic, polymeric, ceramic, and composite materials for applications in life sciences, propulsion, and energy. Professor Das directs the Direct Digital Manufacturing Laboratory and Research Group at Georgia Tech. His research interests encompass a broad variety of interdisciplinary topics under the overall framework of advanced design, prototyping, direct digital manufacturing, and materials processing particularly to address emerging research issues in life sciences, propulsion, and energy. His ultIMaTe objectives are to investigate the science and design of innovative processing techniques for advanced materials and to invent new manufacturing methods for fabricating devices with unprecedented functionality that can yield dramatic improvements in performance, properties and costs.
IRI Connections: