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"It is obvious that the cars are going to slide around more, and so it was important for us to build a car that
is easy to drive and that our drivers can trust sufficiently to go on the attack," explains Rampf. "We should also expect the cars
generally to run with slightly more downforce in order to compensate for the loss of grip."
With the introduction of standard tyres, the significance of aerodynamics increases even more. "If you look at all the components
that affect the performance of a Formula One car, aerodynamics represent by far the single most important factor," Rampf is at pains
to point out. That is why the expansion of the aerodynamics division was given top priority. Operation of the wind tunnel in Hinwil
was gradually ramped up from one to two and then, at the end of October 2006, three shifts. That has long been standard among the
competition and was a key prerequisite for achieving the team’s ambitious targets.
Shorter, raised nose.
Beyond efficient aerodynamics, this time round it is almost equally important to develop a car that responds as well as possible
in corners. The front wing has a major role to play here as it definitively dictates the flow of air around the front tyres. Hence
it is an all-new development which forms a harmonious coupling with the likewise totally new vehicle nose, which is now shorter and
sits higher. This naturally brings a reduction in its weight, but it places extra demands on the engineers in terms of passing the
FIA crash tests. However, the most important aspect is that the wing channels a large amount of air under the car, allowing the
underbody and diffusor to work to full potential.
Larger cooling intakes.
The cooling intakes are somewhat larger than those in the predecessor model. They are part of the new cooling concept, which is
more effectively integrated into the car’s overall package and designed for a greater throughput of air. The air is smoothly
diverted upwards, improving aerodynamic efficiency by comparison with the F1.06 particularly in high outside air temperatures. As
Rampf points out: "In the concept phase we devoted a lot of time to finding an optimal solution in this area. It’s an important
factor as the air temperature in the first races of the season in particular are traditionally very high. The cooling concept of the
F1.07 promises to deliver very high efficiency in all conditions."
Slimmed-down rear with new diffusor.
In developing the rear of the car, the designers built on the knowledge gained with the F1.06, giving the tail an even slimmer
and lower profile to further optimise air flow around the rear wing. This design was based on the compact quick shift gearbox as
well as cleverly positioned hydraulic elements. Also harmoniously integrated into the design are the exhaust pipes, whose form was
determined by considerations of performance and overall package.
The section underneath the rear wing is completely new. Stricter regulations on rear-end collisions have resulted in the rear
crash element being larger and displaying a modifed form. Its lower positioning has required a completely new design for the centre
section of the diffusor.
Reduced weight for greater flexibility.
A further task the engineers faced was to reduce weight while maintaining rigidity. This applied to the monocoque, which in parts
consists of 60 layers of carbon fibre, as well as to the individual components. "Using a lot of ballast is always an advantage, but
of particular importance in the current situation as it ensures great flexibility in terms of weight distribution," explains Rampf.
"And that plays a crucial role in exploiting tyre potential to the full."
New suspension elements and precise steering.
Also totally new are the suspension elements which, at the front axle, are primarily dictated by aerodynamics. The raised nose
section means that the wishbones slant downwards at a striking angle. The kinematics have been modified with the standard tyres in
mind.
"We were also very keen to lend the steering good feedback," says Rampf. "This aspect has taken on even greater importance as a
result of the reduced levels of grip. The harder standard tyres will inevitably cause the cars to slide around more, which means the
drivers will have to do a lot more correcting. That’s why good steering feedback is essential." The rear axle was also modified to
further improve traction.
"In the first season we created a solid basis. The cooperation between the team members in Munich and Hinwil is now running very
smoothly, and the added resources are also helping. Our aim is now to further reduce the gap to the top teams," says Rampf.
V8 reloaded.
Following the fundamental shift in concept from V10 to 2.4-litre V8 engines for the 2006 season, the challenge is now to find
smart detail solutions for the Formula One engines of the future. In 2006 it was decided to put major areas of engine development on
ice until after the 2010 season. 15th December 2006 was the deadline for submitting a list of modifications to the FIA on changes
intended to be made to the engine, based on its pre-specified core, by 1st March 2007 in order to adapt it to the rev limit of
19,000 rpm. The designation of the BMW unit reflects the fact that the engine concept must remain unchanged: it is called the BMW
P86/7 rather than the P87.
The concept of the BMW V8 engine goes back to November 2004. In the course of the 2006 season and beyond, the eight-cylinder
underwent continuous further development. Theissen explains it like this: "A Formula One engine is never finished. You could compare
it to a painting which may look finished to the onlooker but which the artist, knowing exactly where he can improve his work, will
still touch up here and there. A single brushstroke can change the whole effect. Moreover, far from bringing development work to a
standstill, the increased number of regulations has merely shifted the focus. Formula One must, and will, remain at the cutting edge
of technology."
Central control unit.
In place of the previous engine electronics, there is now a new central control unit for the engine, transmission and chassis.
This new development hailing from Munich goes by the abbreviation RCC, which stands for Race Car Controller.
New quick shift gearbox.
Part of the test department in Munich is devoted to the development and testing of transmissions. The BMW Sauber F1.07 features a
7-speed gearbox which shifts up to the next gear without any break in tractive power at the rear axle.
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