Formula 1
Formula 1
30 Apr
-
03 May
FP1 in
68 days
07 May
-
10 May
FP1 in
75 days
21 May
-
24 May
FP1 in
88 days
R
Azerbaijan GP
04 Jun
-
07 Jun
FP1 in
103 days
11 Jun
-
14 Jun
FP1 in
111 days
25 Jun
-
28 Jun
FP1 in
124 days
02 Jul
-
05 Jul
FP1 in
131 days
16 Jul
-
19 Jul
FP1 in
145 days
R
Hungarian GP
30 Jul
-
02 Aug
FP1 in
159 days
27 Aug
-
30 Aug
FP1 in
187 days
03 Sep
-
06 Sep
FP1 in
194 days
R
Singapore GP
17 Sep
-
20 Sep
FP1 in
208 days
24 Sep
-
27 Sep
FP1 in
215 days
R
United States GP
22 Oct
-
25 Oct
FP1 in
244 days
29 Oct
-
01 Nov
FP1 in
251 days
R
Brazilian GP
12 Nov
-
15 Nov
FP1 in
265 days
R
Abu Dhabi GP
26 Nov
-
29 Nov
FP1 in
278 days
Giorgio Piola's F1 technical analysis
Topic

Giorgio Piola's F1 technical analysis

Tech debrief: How downforce levels closed up Belgian GP fight

shares
comments
Tech debrief: How downforce levels closed up Belgian GP fight
By:
Co-author: Matt Somerfield
Aug 31, 2016, 9:41 AM

The fight at the front of the Formula 1 field in Belgium was closer than it had been for some time - perhaps as the result of teams needing to carefully balance out downforce/drag levels.

Mercedes

Mercedes' use of the regulations in order to place three additional updated power units into Hamilton's allocation was not only exceptional work from the mechanics, with a new unit being used in each free practice session, but also puts Hamilton in the box seat going forward.

Both drivers took advantage of new parts, with five tokens being used to improve the power unit. Whilst Rosberg used one from his allocation, the three used by Hamilton means he has a significant mileage advantage going into the latter stages of the season, as the German is effectively a power unit adrift.

Outright power unit performance is often forsaken in order to extend mileage too, meaning that in wheel-to-wheel action or during qualifying Hamilton has an advantage whereby he may be able to use more aggressive engine modes for an extended period of time.

Mercedes AMG F1 W07 Hybrid, rear wing
Mercedes AMG F1 W07 Hybrid, rear wing

Photo by: Giorgio Piola

Mercedes took advantage of Hamilton's limited running and bedding-in of a new power unit during FP1 to make sure the Monza specification rear wing worked as expected and trial a new rear suspension set-up.

It is our understanding that this suspension set-up is not directly aimed at improving the W07, rather an early test for the additional loads that will be generated in 2017.

However, the team may use what it has learned to improve the car for the rest of the season with another shakedown of the configuration scheduled for Monza.

Lest we forget that Mercedes was one of the teams that suffered failures in Austria and has continued to run additional strengthening and tape on the rear upper wishbone.

So, this may be a case of the team indirectly learning from the build of its mule car or investigations into the W08's design rectifying any current underlying issues.

Mercedes felt threatened by the pace of its rivals on Friday, whilst its drivers weren't entirely comfortable with the balance of the car and performance of the tyres either.

As such, on Saturday the team took the decision to swap out its monkey seat design, trading the hooped version with the more conventional square edged design usually used when running in a higher downforce configuration.

The team has also repurposed the lower downforce wing that made its debut in Baku that features the imposing spoon styling. The 'spoon' wing is used as it provides a significant portion of downforce in the central section but due to the shorter chord height at the outer sections the drag penalty is lessened.

Clearly the pairing of the 'Spoon' wing and square edged monkey seat wasn't planned but the unique challenge that Spa provides meant the configuration needed to be changed to maximise performance in the trickier middle sector.

In order to protect itself from the issues of last season, Pirelli had decided to increase the operating pressures for Spa, something that didn't agree with many of the teams and drivers.

It seemed to throw a rather large spanner in the works for Mercedes too, as with the addition of extremely high track temperatures it struggled to get the type of consistency it'd like and as already mentioned it found itself having to add more downforce.

Mercedes brake heater, carbon casing
Mercedes brake heater, carbon casing

Photo by: Giorgio Piola

On the grid it found itself doing something outside of its normal protocols, with the heating devices usually placed over the brake drums nowhere to be found. This emphasises the importance of the relationship between heat and pressure, with Mercedes keen to manage this as best it can to improve performance.

Red Bull

Red Bull's aerodynamic changes have been relatively subtle this season with much of its recuperation of pace in comparison to Ferrari and Mercedes coming from mechanical set-up and the 2016 version of Renault's power unit and its better understanding of how to deploy the energy available, be it petrochemical or electrical.

Suspension

Red Bull Racing RB12, Suspension
Red Bull Racing RB12, Suspension

Photo by: Giorgio Piola

Red Bull focuses a lot of its attention on improving its performance through mechanical set-up changes and keep prying eyes from seeing what it is up to with its vanity panel so that it hides what it is adjusting.

Front brake duct

Red Bull Racing RB 12, Front brake duct
Red Bull Racing RB 12, Front brake duct

Photo by: Giorgio Piola

Over the last few GPs Red Bull seems to have been paying meticulous attention to the clearance of the front brake duct, such is the critical nature of the proximity of the appendage to the tyre.

The measurement and angle of the fins attached to the main vertical fence have also been under scrutiny with the crew taking measurements to ensure they are placed as needed, without infringing the regulations.

Front Wing

For Spa the team had several front wing configurations available to it, one of which featured a new cascade arrangement.

Red Bull RB12 front wing, German GP
Red Bull RB12 front wing, German GP

Photo by: Giorgio Piola

The new specification wing featured a main cascade that has been made wider, whilst the endplate is twisted further outward. To supplement this the winglets that are ordinarily mounted on the side of the main cascade have been revised and a 'r' shaped endplate placed alongside to further assist in moving air across and around the front tyre improving flow downstream.

Red Bull RB12 front wing, Belgium GP
Red Bull RB12 front wing, Belgium GP

Photo by: Giorgio Piola

The new wing wasn't raced though, instead the drivers opted for a wing like the one used in Baku, whereby the upper flap had been cut down significantly to try and take some load off the front axle and reduce some drag.

Rear Wing

Red Bull RB12 rear wing, Belgium GP
Red Bull RB12 rear wing, Belgium GP

Photo by: Giorgio Piola

Trimming out the front wing needs balancing at the rear of the car too and so it came as no surprise that Red Bull ran with perhaps the lowest downforce rear wing in the field.

Not only were they running with short chord flaps and much less angle of attack, they also revised the endplates to feature just two louvres, one of which is conjoined with the leading edge tyre wake slot.

Ferrari

Coming out of the summer break Ferrari knows that its championship challenge is now about trying to beat Red Bull to second place. Arriving at Spa it didn't have many new parts but worked hard on mechanical set-up and made several changes in specification to improve performance nonetheless.

The mixture of straights in Sectors 1 and 3 and tight twisting corners in Sector 2 poses a challenge for all the teams and often leads to a compromise in terms of set-up.

However, Ferrari seemed to understand this challenge more than most and made several aerodynamic concessions before action had got under way, before shrinking back to establish a baseline that would help during the race.

Front Wing

Ferrari SF16H front wing, Montreal/Baku comparison
Ferrari SF16H front wing, Montreal/Baku comparison

Photo by: Giorgio Piola

Like its closest rival Red Bull, the Scuderia had several front wing options available to it in Spa. Both were wings that it had run at the last high speed round in Baku, with the regular three upper flap configuration cut back to shorten the chord length of the uppermost flap (inset).

Meanwhile, the wing touted for use at Baku with two upper flaps but not used at the European GP as it wanted more front load to assist in the tight middle sector, was favored around the 7km Spa-Francorchamps circuit. The two-flap configuration is shorter than the other configuration overall (upper arrow), whilst the tips are clearly different too (lower arrow).

Blown axle

Ferrari SF16H brake duct, Monaco GP
Ferrari SF16H brake duct, Monaco GP

Photo by: Giorgio Piola

Ordinarily, airflow taken in by the brake duct inlet is sent off in various directions, cooling the brake components. Some of that airflow feeds the hollow axle and is pushed out into the path of the wake shed by the rotating wheel and tyre but for Spa the team decided that this may be too destructive to the floor downstream and blanked off the aperture.

Ferrari has used a blown axle now for a couple of seasons and rarely strayed away from using it having considered it an intrinsic part of their philosophy. Given the recent infrastructure changes in the wake of James Allison's departure it's interesting that these kind of changes have been made, especially as the change in direction appears to have been beneficial, for Spa at least.

Chassis Winglets

Ferrari SF16H fins, British GP
Ferrari SF16H fins, British GP

Photo by: Giorgio Piola

In a similar move, the chassis winglets introduced at the British GP (arrowed) were removed for Spa, with the team clearly eager to revise the way in which air moves around the car. These winglets are fine at circuits that demand more downforce but are considered disruptive as speeds escalate.

Rear Wing

Ferrari SF16H rear wings comparison, captioned, Belgium GP
Ferrari SF16H rear wings comparison, captioned, Belgium GP

Photo by: Giorgio Piola

On Friday during FP1 and FP2 both drivers were using the low-downforce wing last seen in Baku. However, having taken stock of the situation the team reverted to the higher downforce wing used in the preceding rounds. This wing features larger flaps and more louvres in the endplates to counter the additional drag that is inevitably created.

Diffuser

Ferrari SF16-H, Diffuser
Ferrari SF16-H, Diffuser

Photo by: Giorgio Piola

In recent races the Scuderia has focused its effort on the outer sections of the diffuser, adding a new footplate winglet in order to improve the relationship between it and the deformation of the tyre alongside it.

However, in Belgium the team turned its attention to the central portion of the diffuser, changing the trailing edge shape (see yellow line which portrays the bevel) and with it the angle of attack.

On top of this, the crash structure winglet was also revised, which combined will change the shape of the upwash and in-turn how it interacts with the aerodynamic devices above it.

Next article
F1 2017 season set to start with Australia/China back-to-back

Previous article

F1 2017 season set to start with Australia/China back-to-back

Next article

F1 teams could block Pirelli's planned construction change

F1 teams could block Pirelli's planned construction change
Load comments