Hydrogen is quickly becoming one of the cornerstones of the energy transition. Its application in the transport sector, particularly in hydrogen fuel cell vehicles, offers a truly viable alternative to fossil fuels and traditional electric mobility. However, achieving this shift requires more than hydrogen production and infrastructure. It demands high-performance materials capable of withstanding extreme conditions: high pressure, chemical exposure, and thermal stress.
This is where nylon composites make a critical difference. Thanks to their lightweight nature, excellent chemical resistance, thermal stability, and low hydrogen permeability, they are becoming essential for key components in hydrogen systems. In our new ebook, “The role of nylon composites in hydrogen-powered vehicles: Lightweight materials for a high-pressure future” we explore how these materials are enabling the next generation of clean and safe mobility.
Inside the ebook, you’ll gain a deeper understanding of the technical challenges of hydrogen vehicles and how nylon solutions are engineered to meet them. Learn about ECOBESTA H₂, UBE’s innovative multilayer tube system designed for low and medium-pressure hydrogen lines, which outperforms traditional multi-layer alternatives in both pressure resistance and hydrogen barrier properties. You’ll also discover the importance of nylon composites in high-pressure tank liners, manufactured using blow molding with UBE’s grades specifically developed for extreme performance.
This ebook is tailored for engineers, product developers, OEMs, and decision-makers working in the hydrogen and advanced mobility sectors.
Fill out the form and download the ebook today to explore how UBE’s nylon composites are helping shape the hydrogen-powered vehicles of tomorrow with performance, safety, and sustainability at their core.
