The Cell3Ditor project has worked in the main objectives devised for achieving the final goal of defining new manufacturing paragons for the fabrication of SOFCs based on 3D printing technologies. Advances have been achieved in parallel in the development of printable feedstock, a dual multimaterial 3D printer, and optimized processes, including printing and co-sintering.
The first part of the project provided an accurate definition of final specification of the system to be 3D printed, based on Finite Elements Simulations (FEM), laying the funds of the requirements of this 3D printing technology.
An outcome of the project has been the development of printable feedstocks of YSZ for SLA, pastes for Robocasting and inks of nano-composites for inkjet. The addition of cathode, anode, electrolyte and interconnections materials to the palette of available material increase will help the development of the flourishing field of 3D printing of ceramics.
An important achievement was the development of a unique device for 3D printing multi-materials. Currently, the hybrid multi-material 3D printing machine is fully operative and successfully commercialized by one of the partners (3DCeram-Sinto), supposing a table-top factory for the development of high added value pieces and devices based on functional ceramics.
The joint efforts carried out by the multi-disciplinary consortium in the different aspects of the production process allowed an enhancement of the maturity of the ceramic 3D printing technology applied to SOFCs. Fully printed (SLA+Robocasting) Single Repeating Units (SRUs) and cells with complex structures have been fabricated and tested, demonstrating the potential of this approach. These pioneering results set the basis for future development of high temperature devices in the field of energy.
The Cell3Ditor project included efforts for identifying the most promising exploitable results and finding the best routes for a successful exploitation of the developed technologies. Two market analyses have been performed looking for the best possible approach to the market. The patent landscape and freedom-to-operate scenario has been updated along the project. In this context, four patents have already arisen fruit of the project developments. Also, a Life Cycle Analysis was conducted with real process data, showing a noticeable reduction of greenhouse gases emission among other.
Dissemination has received a major attention from specialized audience and general public. Intensive participation in congresses, fairs and other outreach activities was key in reaching different target public. Also, successful dissemination around the world was achieved thanks to different channels, including the website, with more than 12.000 visits, and several social media: Twitter, Youtube, and Researchgate.