Mercedes F-CELL Roadster is a fuel-cell-drive concept built by a team of 150 trainees of Daimler AG at the Sindelfingen Mercedes-Benz plant which took a year to be completed. Powered by a 1.2 kW fuel cell system located at the rear, Mercedes F-CELL Roadster will reach its top speed at 25 km/h and has a range of 350 km. Mercedes F-CELL Roadster design is inspired by the Benz Patent Motor Car from 1886, which features a unique fiberglass front section, large spoked wheels, and also carbon-fiber bucket seats with hand-stitched leather covers. While on the front section, the design is inspired by the F1 race cars. Mercedes F-CELL Roadster is equipped with a drive-by-wire joystick instead of a steering wheel. 
In a hitherto unique project bridging various fields of profession, the trainees of Daimler AG at the Sindelfingen Mercedes-Benz plant have built a Roadster with fuel cell drive. For about a year, more than 150 trainees and dual education system students worked on the overall concept, development, assembly, and completion of the Mercedes F-CELL Roadster. This project involved junior employees from the fields of automotive mechatronics, model-building, electronics, coating technology, manufacturing mechanics, product design, and interior appointments. The prime objective of the project was to integrate the topic of alternative drive systems into training with
hands-on experience.
�
This project impressively demonstrates that the topic of sustainable mobility has become an integral part of our vocational training,� said Human Resources Board member and Labor Relations Manager G�nther Fleig. �I am delighted to see how much initiative and creativity the young people have put into this project.�
Mercedes F-CELL Roadster uniquely combines state-of-the-art technologies with the history of vehicle construction. As an allusion to the Benz Patent Motor Car from 1886, the vehicle is fitted with large spoked wheels. Moreover, the Mercedes F-CELL Roadster incorporates stylistic elements from diverse eras of automotive history, such as the carbon-fiber bucket seats with hand-stitched leather covers and the distinctively styled fiberglass front section, based on the component from the Formula One racing bolides.
Mercedes F-CELL Roadster is controlled with drive-by-wire technology, and a joystick takes the place of a conventional steering wheel. The vehicle is powered by the emission-free fuel cell system located at the rear. With a power rating of 1.2 kW the Mercedes F-CELL Roadster reaches a top speed of 25 km/h and has an operating range of up to 350 km.
hands-on experience.
�This project impressively demonstrates that the topic of sustainable mobility has become an integral part of our vocational training,� said Human Resources Board member and Labor Relations Manager G�nther Fleig. �I am delighted to see how much initiative and creativity the young people have put into this project.�
Mercedes F-CELL Roadster uniquely combines state-of-the-art technologies with the history of vehicle construction. As an allusion to the Benz Patent Motor Car from 1886, the vehicle is fitted with large spoked wheels. Moreover, the Mercedes F-CELL Roadster incorporates stylistic elements from diverse eras of automotive history, such as the carbon-fiber bucket seats with hand-stitched leather covers and the distinctively styled fiberglass front section, based on the component from the Formula One racing bolides.
Mercedes F-CELL Roadster is controlled with drive-by-wire technology, and a joystick takes the place of a conventional steering wheel. The vehicle is powered by the emission-free fuel cell system located at the rear. With a power rating of 1.2 kW the Mercedes F-CELL Roadster reaches a top speed of 25 km/h and has an operating range of up to 350 km.
No comments:
Post a Comment