The 400kph McLaren Speedtail is the spiritual successor to the F1

It has big tires to fill
by Ollie Marriage | Oct 26, 2018

Sleek, isn’t it? Long and low and lean and, well, sleek. A streamliner. This is it, the McLaren Speedtail, the car formerly known as BP23 and likely forever known as the spiritual successor to the F1. Three seats, stratospheric top speed and a price tag that’s similarly out of this world.

Facts, though, have been in short supply. And when we’re starved of facts, we feed off myths. The rumor mill spooled up with tales of a 480kph target, of Chiron-beating power, and, to be fair, all we did was fan the flames.

Let’s rein in hyperbole and exaggeration right now, because here’s what we do know: The McLaren Speedtail will, when deliveries start in early 2020, have cost each of its 106 owners north of £2.1 million (P144 million) for a car that boasts 1,036hp and a 402kph maximum speed. When they do strap themselves into the center seat, line up on a runway, press the Velocity button above their head, and nail the throttle, they’ll feel what it’s like to accelerate from zero to 300kph in the same time it takes a diesel supermini to hit 100kph.

How is it powered? That still hasn’t been fully revealed, but let’s start by looking at a broader picture. McLaren likes its Ultimate Series cars to answer questions. Take the Senna, which answers: “Is it possible to road-legalize racing levels of downforce?” Turns out it is, and nothing else comes close to the 800kg of downward pressure the Senna is able to produce at 240kph. Now we’re in the realm of, “What if we forgot about downforce and went low-drag instead? Say grand touring was still a thing, what would the ultimate 21st-century GT car look like? What would it be able to do?”

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McLaren’s leap of faith is that grand touring is still a thing, and that people will want to do it as a threesome. Hyper GT is the pitch; Bugatti Chiron, even if McLaren isn’t admitting as much, the target. The Speedtail is about luxury as much as speed. Well, heading that way. We’ll come on to talk about the clean lines of the cabin, the tactility of the materials, but first, just look at it: the length of the tail, the elegance of those rear lines. It’s plain stunning, a shape that treats the air passing over and around it with respect. What air it needs is subtly taken, used as appropriate for combustion or cooling and then calmly reintroduced, before being precisely and delicately detached by the samurai-blade tail. At 5.13 meters long, it’s 60cm longer than a Chiron, the sweeping carbon cape carrying with it a suggestion of art deco/steampunk ’30s cool. The kind of car the Rocketeer would have driven.

That’s the back, at least. The front is more challenging. What initially springs to my mind are mid-’80s concept cars, stuff such as the MG EX-E, the Lotus Etna. Think it’s something to do with the wheel spats and the low, low nose. The more I look, the better it gets, though, and I really admire how the intakes and the air channels have been hidden away. Still, at this end of the car, engineering is more important than aesthetics. Design chief Rob Melville describes it as a “comet, with the mass at the front, then this long tail.”

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He’s also interesting about the wheel spats: “Without them, the car would not have been able to deliver on its top speed and acceleration parameters.” The spats (which remain static as the wheel rotates) reduce turbulence almost entirely, the air allowed to escape only from the wheel arch through a single notch, smoothing flow. They can be removed, but McLaren suggests you don’t. Just think of the brake dust buildup. And did you notice? No exterior mirrors. Instead, pop-out cameras with screens at the base of the A-pillars.

I don’t think I’ve seen a smoother transition from window into roofline—there’s no header rail, nothing to delay the air’s passage. And how about the cuts at the back of the rear deck? Flexible carbon fiber, moved by hydraulic actuators to adjust the center of pressure or aid braking stability. We must assume that somewhere in Woking, that vast one-piece clamshell is undergoing not just air-proofing but also child-proofing, being continuously flexed, bent, and pressurized so that the Speedtail can resist the challenges of Casino Square.

Which, let’s face it, is a likely destination. Let’s just hope it’s been able to use a decent proportion of that 1,036hp on the way there. No word yet on how that’s balanced between combustion engine and e-motor(s), but let’s guess 750hp from the familiar 4.0-litre twin-turbo V8 and approaching 300hp of electric. There’s a conventional battery pack, but no plug-in socket. Instead, inductive charging.

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Rumor is it won’t run on electric alone. Shame. If true, this hybrid will have regressed from the P1. Will electricity still be helping out at high speed? Is there a clever gearing system to allow that? We just don’t know, beyond realizing that the 1,430kg dry weight (the P1 was 1,395kg) means the battery pack can’t be that big.

There are a couple of elephants in the room. Anyone else slightly underwhelmed by the stats? Only 11kph faster than the 25-year-old F1, likely no more e-power than the Porsche 918 Spyder, a mere 1,036hp total when Koenigsegg’s Agera RS has a full megawatt (1,341hp), and the Chiron has 1,479hp. And 1,650hp seems the entry point if you want to talk 480kph.

The only stat available so far is 0-300kph in 12.8sec. Bugatti’s time is 13.1sec (the Bug might have a hefty power advantage, but it’s also getting on for 600kg heavier—the two have near-identical power-to-weight ratios of around 740hp/ton). Nothing in it really, but McLaren has confirmed the Speedtail is rear-drive only. It’ll be doing well to match the Bug’s 2.4sec 0-100kph time, but might just have caught up by 160kph (4.7sec). Mad enough, however you measure. For reference, the F1 took 22sec to reach 300kph, the P1 16.5sec. So it’s deeply, deeply fast, but not as rapid as the Koenigsegg Agera RS (11.9sec). Bragability is good, but not at levels the F1 enjoyed at launch.

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But maybe that’s the point. McLaren isn’t talking 480kph, because the faster you want to go, the more you have to compromise—stiffer tire sidewalls are just the beginning. Going back to first principles, McLaren wants the Speedtail to answer the hyper-GT question, not simply battle for bigger numbers. Seen from that point of view, it’s hard to conclude that 400kph isn’t ludicrously adequate. So 400kph it is, reached very quickly.

We can also assume McLaren is focusing on high-speed stability as a core facet, to make distance relaxing and undemanding. Wind and tire noise will need to be minimized—in that respect, it’s encouraging that the front tires are modest 235-section, that there’s nothing to snag the air passing over the canopy. I suspect it’ll have a massive fuel tank (“more than 60 liters” is all Ultimate Series line director Andy Palmer would admit). Even so, it ought to be an efficient car.

Comparing and contrasting the Speedtail is all well and good, but its USP isn’t speed, but seating. This time last year, I drove a central-seat 720S. I found it captivating, almost instantly a more logical, sensible place to sit in the car, distanced from both A-pillars, the symmetry of the view out an utter joy. The catch is getting in. Various techniques are available; none is elegant. Or quick. All involve a measure of shuffling and skooching. I do like the fact McLaren has incorporated recessed handles in the headlining, and engineered “directional leather” that aids sliding in, then “subtly holds the occupant in place while they drive.” This was necessary because the central seat couldn’t have high bolsters. You do miss them.

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If you want to feel wedged in, drop back into one of the flanking chairs. Here, tucked behind the B-pillar, shoulder overlapped with the driver, you are genuinely hemmed in. It’s comfortable but restrictive. You can’t be big. The view out, however, is, like the driver’s, unique. It’s a special place to sit: You’re aware of views in interesting directions, of the amount of light, of angles you’ve never seen before in a car. It’s not social, though, doesn’t treat passengers as equals.

The center seat makes the Speedtail egocentric. The symmetry is emphasised by how much it’s been decluttered. No sun visors; instead, the Speedtail is fitted with electrochromic glass that darkens at the press of a button. The LED interior lights have been incorporated into the glass, too. Your eye has less to fall on, and the clean view across the swathe of screen and air vent, mirrored either side, channels you into focusing on the steering wheel, finished in this glorious wood-like machined carbon. That material, super-tactile, carved from billet carbon where each layer is just 30 microns thick, is used for the paddles, too, and forms the binnacle around the porthole above your head. That’s where you find the car controls, buttons for the gearlever, start/stop, and switchable dynamic modes. The most interesting one is labeled Velocity.

This prepares the Speedtail for high speeds. “No extra key or anything,” Palmer tells me. “This will do 400kph straight out of the box.” It lowers, the active aero is optimized, and the wing cameras fold away. Whether this makes it an illegal mode on the road, like the P1’s track mode, McLaren has yet to admit.

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The doors operate electrically, there are stowage drawers underneath the outer seats, load bays at either end (162 liters in total, fitted luggage matched to the interior specification is optional), but no lockers in the flanks à la F1...more’s the pity. Cupholders? Those are on the options list, I’m told.

But it’s not just the tech and layout that separates the Speedtail from lesser McLarens—it’s the design and quality. So here we have Scandanavian leather where air is infused beneath the surface during manufacturing, to reduce density and cut weight by 30%. It’s still tough enough that, with stippling to aid grip, McLaren has used it in place of carpet on the floor. Then there’s Titanium Deposition Carbon Fiber (I’m sure that name is scientifically accurate, McLaren, but you shouldn’t put scientists in charge of naming things as well as creating them). Carbo-tanium gets around the issue of colored carbon fiber, which can, apparently, compromise the material’s structural integrity. Here, a micron-thin titanium layer is fused onto the carbon weave. McLaren has left the finish natural on this Speedtail, but the titanium can be anodized in any color—you could even have images and words placed into the carbon. McLaren pioneered carbon fiber, and now it’s taking it to the next level.

The mind boggles. I suspect it’ll do so again when more details are released. But for now, while we’re still short of full fact disclosure, I recommend just gawping at the thing, and realizing that one day quite soon, 106 of them will be released into the wild.

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NOTE: This article first appeared on Minor edits have been made.

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