Zircotec's Breakthrough: Hydrogen Barrier Coatings for Future Mobility Solutions
Key Ideas
- Zircotec developed hydrogen barrier coatings for H2 internal combustion engines as part of the APC-18 project led by the UK's Advanced Propulsion Centre.
- The barrier coatings, developed in collaboration with partners like Johnson Matthey and Cummins, are now 'market ready' and enable the safe use of high-risk materials.
- The success of the APC-18 project has led to the establishment of a new research laboratory 'Z Lab' for materials testing and analysis, as well as the development of coatings solutions for electric vehicles through the CeraBEV project.
- Zircotec's CEO highlights the impact of their research on the EV sector, enhancing thermal and electrical capabilities in battery systems to improve efficiency, safety, and performance.
Zircotec, a UK-based company, has made significant strides in material science by developing hydrogen barrier coatings for use in H2 internal combustion engines. Through their involvement in the APC-18 project led by the Advanced Propulsion Centre, Zircotec worked with partners like Johnson Matthey and Cummins to create coatings that combat the negative effects of hydrogen on certain metals. These coatings are now deemed 'market ready', ensuring the safe utilization of high-risk materials within combustion engine internals. The success of the project also led to the enhancement of Zircotec's technical capabilities, including the establishment of 'Z Lab', a research laboratory for conducting material testing, analysis, and environmental testing. Additionally, Zircotec developed coatings solutions for electric vehicles in the CeraBEV project, addressing critical thermal and electrical challenges in battery systems. Terry Graham, Zircotec's CEO, emphasized how the knowledge gained from the APC-18 project was applied to the EV sector, contributing to improved efficiency, safety, and performance in battery systems. Overall, Zircotec's innovations in hydrogen barrier coatings showcase their commitment to advancing material science for future mobility solutions.