| KEYWORD |
3D printing of advanced functional materials for energy technologies
Thesis abroad
keywords CERAMIC, SOFC, ENERGY SYSTEMS
Reference persons FEDERICO SMEACETTO
Research Groups AA - Glasses, Ceramics and Composites
Thesis type EXPERIMENTAL THESIS
Description 3D printing technology can be used for the production of energy conversion devices (i. e. Solid oxide cells ) by covering research and innovation from inks formulation, 3D printer development, ceramics consolidation to system integration.
One of the most interesting 3D printing techniques is computer-controlled fabrication by solid
freeform, also known as fuse deposition modeling (FDM). This technique produces objects with controlled complex shapes and reduced size with short processing times, with relatively low cost equipment.
The aim of this project is to design and develop complex-shaped ceramic materials processed by the 3D printing technique for their integration in electric energy storage devices.
The project will be developed at DTU ENERGY, Department of Energy Conversion and Storage, Denmark
Deadline 09/11/2018
PROPONI LA TUA CANDIDATURA