RUAG Space has engaged the Swiss engineering company ‘Scheurer Swiss’, renowned for its many years of expertise in fibre composite technologies, as engineering and production partner for the construction of the ExoMars-Rover.
“Scheurer Swiss has actively supported RUAG Space in an advisory and operational capacity,” announces CEO Dominik Scheurer. “In particular as engineering partner for the development of the carbon fibre chassis of the rover and in advance as consultant in the course of the acquisition of a suitable laser system for the purpose of the lamination process of the aforementioned carbon fibre chassis. Scheurer Swiss also provided extensive production support by successfully placing its specialised and competent specialists to RUAG Space, deploying them directly on site under the leadership of our experienced Chief Technology Officer, Robert Tween,” explains Scheurer.
In addition to Switzerland, other nations such as England are also part of the European space project and are developing, on behalf of the European Space Agency (ESA) under the direction of RUAG Space and Airbus Defence and Space, the suspension and carbon fibre chassis of the Mars rover named after the famous British biochemist Rosalind Franklin, which will begin its journey to the red planet in 2020. The finished suspension of the prospective Martian is currently in the RUAG Space test centre in Zurich and will be put through its paces using suitable substrates and scenarios.
At the same time, the brand new control centre for the ExoMars-Rover – the Rover Operations Control Centre (ROCC) – was inaugurated in Turin, Italy. It is one of the largest European Martian shipyards and will be the operational hub which will coordinate the activities and drilling of the European-built laboratory on wheels upon arrival on the surface of Mars and will test them in advance on Earth in a controlled manner after the individual rover components will have been extensively tested in the respective countries and then assembled to form the complete ExoMars rover. “This is the crucial place on Earth from where we will listen to the rover’s instruments, see what she sees and send commands to direct the search for evidence of life on and under the surface,” said Jan.
Image provided by Scheurer Swiss
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