Far more than a styling exercise, Intrado demonstrates Hyundai’s belief that advanced vehicle technologies and intelligent design can combine to engage more effectively with driver and passengers.
Set to be revealed to the public at the 2014 Geneva Motor Show, Intrado has resulted from fresh consideration of what consumers will need and expect of their cars in the near future: cars that are easy to use, intuitive to interact with, and readily adaptable to the varying demands of their busy, active lifestyles.
Intrado takes its name from the underside of an aircraft’s wing – the area that creates lift. The car’s advanced materials and technologies also draw inspiration from aircraft, such as the removal of all unnecessary weight, logical solutions to complex challenges, inspired by a purity of purpose, and a highly efficient powertrain.
The exterior of Intrado presents a progressive interpretation of Hyundai’s established fluidic sculpture form language. The vehicle’s distinctive shape is dictated by the need to be aerodynamically efficient; it is free of unnecessary adornments and features minimal detailing. The body panels are made of advanced super lightweight steel from Hyundai Motor’s steel plant.
The interior of Intrado is defined by a focus on usability and adaptability, and draws attention to its advanced materials and radical construction to deliver the kind of functional beauty typically seen on high-end mountain bikes. The seals of opening panels shut directly against the central carbon frame, showcasing the carbon fibre whenever doors, hood or trunk are opened. Components that are usually concealed are highlighted, including the ‘see-through’ air vents and exposed frame onto which the seats clip directly. The use of bright ‘Beaufort Orange’ contrasts with the exposed carbon fibre, reflecting the car’s active brief and mirroring its restrained exterior detailing.
The super-lightweight structure of Intrado demonstrates Hyundai’s desire to produce lighter, stronger cars that are even better to drive and simpler to repair. The central carbon frame structure is constructed using new, patent-pending manufacturing and joining techniques that together have the potential to change the way cars are made. The strength and rigidity of this central structure also allow body panels to be constructed from any material, giving designers greater flexibility and aiding repairability. Lightweight steel impact structures further enhance crash performance and repair times.
Intrado is powered by a next-generation hydrogen fuel-cell powertrain that utilises a Li-ion 36 kWh battery. Refuelled in just a few minutes, Intrado has a range of up to 600 kilometres and emits only water. In addition to improved performance and increased range, Intrado promises more responsive and agile driving dynamics, thanks to the reduced weight and greater efficiency of its powertrain.