First seen at this year’s Geneva International Motor Show, a limited number of 599XXs will be available for sale to Ferrari’s most valued customers, but Ferrari will prepare and run the cars on behalf of their owners, enabling them to drive them at special events at Ferrari’s own Fiorano test track and at leading race tracks in Europe and the USA.
Data gathered from these track days will be used to further enhance and develop technology for future frontline Ferrari models.
This includes reducing internal friction in the engine, faster gearbox operation, aerodynamics that automatically adjust depending on whether the car is cornering or going in a straight line, as well being speed dependent, and a new high speed adjustable chassis. New weight saving ideas are used throughout the car, including carbon fibre brake calipers.
While based on the 599 GTB Fiorano with the same transaxle layout and engine type, this prototype is an extreme track car. Ferrari's engineers have carried out extensive work on the engine's combustion chambers and inlet and exhaust tracts.
These modifications, combined with the fact that internal friction has been reduced and the maximum revs have been boosted to 9000rpm, helped achieve the target power output of 515kW at 9000rpm.
Particular attention was also paid to cutting the weight of the engine unit components. This was achieved both by optimizing forms - as in the new crankshaft - and adopting exclusive materials, as in the carbon-fibre used for the intake plenums. A new gearbox shift strategy cuts overall gear change times to 60 milliseconds.
The chassis of the 599XX uses an innovative electronic model called the "High Performance Dynamic Concept" which has been designed to get the maximum performance from the car by managing the combination of the car's mechanical limits with the potential of its electronic controls.
The mechanical and electronic systems work together to get the maximum performance from the car under extreme high performance driving, for consistent lap times. The aggressive handling has been improved thanks to the adoption of second generation SCM suspension system.
Track usage is also made easier thanks to the new "virtual car engineer", a screen in the car that provides a real-time indication of the vehicle's track performance.
The 599XX's aerodynamics were honed in numerous wind tunnel test sessions with the result that the car now boasts 280kg of downforce at 200km/h and 630kg at 300km/h. The front underside of the body is completely faired-in and the vents that channel hot air from the engine bay have been moved to the bonnet.
The "ActiflowT" system increases downforce and/or cuts drag depending on the car's trim cornering conditions, courtesy of the use of a porous material in the diffuser and two fans in the boot which channel the air flow from under the car out through two grilles next to the tail-lights.
Winglets have been added to the rear buttresses to increase downforce. Synthetic jets have also been incorporated into the rear of the car to control and smooth the air flow and to reduce drag.
Ferrari's engineers have also used F1-derived metal "doughnuts" which partly cover the brake discs and wheel rim. These have the dual function of improving both aerodynamics and brake cooling.
In terms of the bodywork, composites and carbon-fibre have been widely used and the engineers drew on their experience in working with aluminium to reach the weight target. The development of increasingly high-performance materials has also benefited the carbon-ceramic material braking system.
The brake pads are now made from carbon-fibre which means that the calipers are smaller whilst guaranteeing the same efficiency. The new racing carbon ceramic braking system also delivers shorter braking distances and is generally more efficient due to the weight saving.
The 599XX comes with slick tyres (29/67 R19 Front and 31/71 R19 Rear) specifically developed to maximize stability in cornering and increase lateral acceleration. They are fitted to 19 x 11J wheel rims at the front and 19 x 12J at the rear.