Jaguar Land Rover’s Tucana project is a four year programme bringing together a consortium of academic and industry partners with the aim of delivering stiffer and lighter vehicle structures, to boost the performance of electrified vehicles.
The research will allow Jaguar Land Rover to develop lightweight vehicle and powertrain structures by replacing aluminium and steel with composites capable of handling the increased torque generated by high-performance batteries, while improving efficiency and reducing CO2 impact.
Jaguar Land Rover aims to increase vehicle stiffness by 30 per cent, cut weight by 35kg and further refine the crash safety structure through the strategic use of tailored composites, such as carbon fibre. Reducing the vehicle body weight will allow the fitting of larger batteries with increased range – without impacting CO2 emissions.
Advanced composites offer significant reductions in vehicle weight, and by 2022, Jaguar Land Rover expects to have developed a fleet of prototype Tucana test vehicles.
The consortium includes industry partners the Warwick Manufacturing Group (WMG), Expert Tooling & Automation, Broetje-Automation UK, Toray International UK, CCP Gransden and The Centre for Modelling & Simulation (CFMS).
Marcus Henry, Research Manager at Jaguar Land Rover, said: “The development of new lightweight body structures to complement the latest zero-emissions powertrains will be key as the electrification of our vehicle range continues. This project will allow the true environmental credentials of electric vehicles to be realised by enabling wider adoption of the technology and will propel Jaguar Land Rover and the UK supply chain into a world-leading position in low-carbon technology.”
