Swiss bike brand, BMC, has collaborated with the F1’s Red Bull Advanced Technologies in an attempt to produce the world’s fastest bike.
The partnership started in 2018 with the aim of using the tools developed to boost performance in Formula One to enhance the design and development of performance bikes.
BMC took advantage of Red Bull Advanced Technologies’ extensive simulation and modeling capacity to inform decisions on the optimization of “speed, power and ride quality.”
(Image credit: BMC)
Stefan Christ, Head of R&D and BMC Switzerland explained: “Simulating not only the vehicle performance, but the entire performance environment, offers huge opportunities in the collaboration and finally makes BMC athletes even faster. Building the prototypes in our very own Impec Lab here in Grenchen, Switzerland helped us to be fast in development but also realizing exactly our vision of the bike.”
Even with their data driven approach and heavy emphasis on quantitative performance, BMC has kept considerations on the ride quality and feel close in mind.
Brand ambassador and multi Tour de France stage winner, Fabian Cancellara, was involved “at every stage of the development” to provide feedback through the prototyping and final construction.
(Image credit: BMC)
Cancellara said: “Two worlds from different sports have come together to create something cycling has never seen before. It has been fascinating to be involved in this project from its early stages, to continually test the athlete and machine interface.
“Being part of the development of a cutting-edge bike, employing some radical principles and being given the chance to influence its performance from a rider perspective has been amazing. The finished prototype is incredible, and I look forward to what’s next.”
(Image credit: BMC)
Andy Damerum, Red Bull Advanced Technologies Commercial Development Officer, added: “We started out with the ambition to design the fastest bike in the world. We’re incredibly proud of what we have achieved with BMC. We took our Formula One methodologies in aerodynamics and CFD (computational fluid dynamics) and applied it to a bike design, we believe resulting in a bike that we has the potential to be a game changer.”
Analysis
These are bold claims from Red Bull Advanced Technologies and BMCbut it would have been nice if a bit more of the data substantiating them were shared – at least some wind tunnel comparisons against some of the main competitors.
It seems that the first public test of the bike will be at the 2021 Ironman World Championship at St George in Utah (to be held on 7th May 2022) when it’s ridden by Red Bull Athlete and BMC Pro Triathlon Team Member Patrik Nilsson.
However, it is quite notable that there is no extension over the rear wheel as we’ve seen on the dedicated triathlon bikes from the likes of Specialized and Felt. Plus, that deep section storage box around the bottom bracket looks to be removable — perhaps so as to comply with the 3:1 rule that’s doesn’t apply in triathlon.
(Image credit: BMC)
It suggests that the collaboration may have stopped short at aiming to produce the “world’s fastest race bike” and instead opting for the “world’s fastest UCI-legal race bike”, potentially putting Nilsson at a disadvantage against more uncompromisingly optimized tri bikes.
But with that said, the Utah course does look to be notably hilly, with 2,248m of elevation gain compared to just 1,731 for the iconic Kona course (7,374 ft. vs 5,678 ft.). There’s also a major climb with gradients of 12 per cent at around the 120km / 75mi mark, ominously known as “The Wall”.
So perhaps the slimmer tubes and (presumably) lighter weight could prove a better balance for the demands of the race.
Either way, the bike does look quite distinctive with that flattened crown of the fork mimicking the slender joins of the seat stays to the seat post at the rear. With rider position being so important to the aero performance of the complete system, it’s good to see that the cockpit is designed to offer a more modern “high-hands” position, as well as the classic 90 degree bend at the elbows.
(Image credit: BMC)
Finally, is this a sign of road bikes to come, or are they just having a laugh throwing a few bits together?
The stack of spacers under the stem is understandable as it doesn’t look like there’d be much clearance between the stem bolts and the face of the top tube – but does it really need such a sharp positive rise? That’s a pretty shallow drop between saddle and bar – some gravel bikes have a greater differential.
Plus, that’s quite an ensemble of components. You don’t typically see an FC-6800 Ulterga crankset paired with 11-speed SRAM Red — and especially not in conjunction with a Campagnolo rear disc rotor. It’s certainly a very unique bike.