Zeleros, the European company developing the scalable hyperloop, an ultra high-speed transportation system for both public and goods transport, and ArcelorMittal, the steel and mining company, have carried out trials to analyse the behaviour of steel grades for optimal use in hyperloops.

A testing facility in the form of a spinning wheel that can reach linear speeds of up to 500km per hour has been designed and built at ArcelorMittal’s Rail Excellence Centre in Spain, to test how certain steels perform in ultra-high-speed conditions, prior to testing on a scaled hyperloop track. The results provide data to further advance the selection of the best steels for hyperloop use, considering safety, energy efficiency, cost and scalability as the main decision criteria.

''Thanks to the continuous improvement of steels, we can radically reduce infrastructure costs and assure energy efficiency and infrastructure viability”.

Daniel Orient, Zeleros’ CTO

“To reach Zeleros' vision of building a scalable hyperloop, including the braking, guiding and levitation technology in the vehicle, this collaboration is key. Thanks to the continuous improvement of steels, we can radically reduce infrastructure costs and assure energy efficiency and infrastructure viability”, stated Daniel Orient, Zeleros’ CTO.

“The work we have been doing with Zeleros reflects the importance we place on our involvement in innovative projects using steel in infrastructure and transportation, and that contribute to reducing CO2 emissions.”

Nicoleta Popa, portfolio leader of construction applications, infrastructures and long products of ArcelorMittal Global R&D

“The work we have been doing with Zeleros reflects the importance we place on our involvement in innovative projects using steel in infrastructure and transportation, and that contribute to reducing CO2 emissions”, said Nicoleta Popa, portfolio leader of construction applications, infrastructures and long products of ArcelorMittal Global R&D.

“The multidisciplinary ArcelorMittal team for the structural, mechanical and electromagnetic aspects, proves the strength of our approach for such complex innovative projects, both in defining new products and in developing new solutions” said Frederic Painchault, head of marketing of global automotive and mobility solutions.

Besides hyperloop, ArcelorMittal has participated in studies of materials for other applications developed by Zeleros, such as the SELF (Sustainable Electric Freight-forwarder), which was developed to move standard intermodal containers in a faster, automated and sustainable way within ports, for which the test track is currently under construction in the port of Sagunto in Spain.