3/6/2025

McLaren’s world class expertise in lightweight engineering has been based on carbon fibre chassis technology for more than 40 years – an unrivalled pedigree in composite engineering and innovation

• Carbon fibre monocoques represent the ultimate ‘race track-to-road’ innovation, remaining the standard in Formula 1 to this day and being the chassis technology underpinning every single McLaren road car ever made
• New W1 is the latest expression of McLaren’s unmatched capabilities in this area. Its Aerocell carbon monocoque is designed for optimal light weight, while delivering a platform for real ground effect and true supercar ergonomics, and the W1 debuts new ultra-stiff and optimised McLaren ART carbon fibre in its active front wing package
• McLaren continues to relentlessly innovate in composites technology and strives to deliver new, groundbreaking moments in the automotive sector

With over 60 years as a leader in innovative technologies developed in Formula 1, McLaren is advantageously placed to deliver breakthrough automotive technologies that set the standards in lightweight supercar engineering.

And it is with carbon fibre that McLaren’s innovative capabilities are strongly represented. Lightweight, strong, and rigid, McLaren is now approaching half a century as a world leader in this highly technical area of materials science and continues to push the boundaries of what is possible.

Carbon fibre plays an essential part in delivering supercars with the best possible combination of attributes on road and track. Every single McLaren production car since the first, the McLaren F1, has been based on a chassis made from this composite material. The light weight and rigidity of the material is key to delivering benchmark performance and thrilling dynamics, but also class leading ride quality and the added benefits of efficiency. Its strength provides safety, assurance and durability. It is the perfect material upon which to create a platform for a supercar with incredible packaging solutions, enabling designers to create cars with incredible aesthetics and aerodynamic efficiency.

It is a technology firmly rooted in McLaren’s Formula 1 heritage, and is a core part of the McLaren DNA:

MP4/1 (1981)
The MP4/1 revolutionised Formula 1 as the first race car to use a full carbon fibre monocoque chassis. Its lightweight, rigid structure significantly improved both safety and performance. Designed by John Barnard, this pioneering chassis led to widespread carbon fibre adoption in motorsport, changing F1 car design forever.

The introduction of carbon fibre chassis cars in the sport began a modernised era in Formula 1. The superiority of carbon fibre from a safety perspective was demonstrated in spectacular fashion at the 1981 Italian Grand Prix. McLaren driver John Watson sustained and walked away from a huge 140mph accident unharmed. It was a major moment in convincing the wider Formula 1 paddock that carbon fibre chassis technology was the future of safety in Formula 1. The performance potential of a carbon chassis was made clear only three races later, as Watson won that year’s British Grand Prix by more than 40 seconds.

McLaren F1 (1993)
Of the many groundbreaking design features of the McLaren F1, the utilisation of a carbon fibre monocoque chassis and a full carbon fibre body, emphasizing minimal weight and maximum structural rigidity, were among the most important. Pioneering the use of carbon fibre in road cars, the F1 boasted unmatched performance because of its light weight of only 1,140kg and its immense power of 627PS from its 6.1-litre V12 engine. The carbon fibre monocoque – engineered using at the time cutting-edge computer aided design and analysis – allowed the F1 to achieve a significant power-to-weight ratio previously unheard of in road cars, becoming an icon of supercar engineering.

It was the platform upon which not only the world’s fastest road car was built, achieving a top speed of 240.1mph at the Ehra-Lessien proving ground in Germany, but it also embarked carbon fibre technology on a complete circle of track, to road, and back again, after the F1 GTR won the 1995 Le Mans 24 Hours.

McLaren 12C (2011)
The McLaren 12C, the first road car to be produced by McLaren Automotive at the state-of-the-art McLaren Production Centre, introduced the MonoCell; a single-piece carbon fibre tub that provided unprecedented stiffness and lightness in a road car at the time. The development of the chassis took the McLaren carbon fibre story into the 21^st century. MonoCell was the backbone of the world’s first truly mass-produced full carbon fibre tub supercar range, delivering the benefits of this type of chassis construction on a scale never seen in the automotive industry before.

The MonoCell was one of several revolutionary new technologies introduced by 12C to the supercar segment, while also being one of the core elements in the creation of McLaren’s modern supercar DNA, laying the foundations for the future. Its advantages over the Aluminium designs still popular at the time ranged not only from incredible light weight of only 75kg for the tub itself, but tortional rigidity so great that the Spider variant of the 12C required no additional chassis strengthening – a no compromise solution true of all McLaren spiders created to date.

McLaren P1™ (2013)
Only two years on from launching the 12C, McLaren would once again revolutionise carbon fibre supercar technology with the launch of the McLaren P1™ in 2013. This second instalment in McLaren’s ‘1’ car linage took another step forward from its groundbreaking forebearer, the McLaren F1, through the use of a full carbon fibre body structure incorporating not only the roof and lower structures, roof snorkel, engine air intake cavity, but also the battery and power electronics housing that were integral to the P1’s™ high performance hybrid powertrain, in a structure known as MonoCage.

The entire structure weighed only 90kgs – a masterpiece in supercar engineering and packaging that proved to the world that electrification needn’t mean compromises on overall vehicle weight and can play an integral role in delivering performance in a true lightweight Ultimate supercar.

McLaren 720S (2017)
The 720S introduced the Monocage II carbon fibre structure that is still employed by the McLaren 750S today, further enhancing rigidity and reducing weight compared to its predecessor, the MonoCell. The lightweight structure comprises the entire passenger cell, combining a carbon fibre tub with an upper structure in carbon fibre to further enhance lightweight attributes. This significant step forward in carbon monocoque technology in series production supercars delivered not only multiple-award winning performance and dynamics, but vastly improved ergonomics, visibility and design.

The incredibly slim roof pillars of the Monocage II result in outstanding visibility through the windscreen, and combined with B-pillars that are positioned rearwards on the cab-forward cockpit, the Monocage II contributes to a sensation of exceptional space. The sills of the Monocage II drop down towards where the occupants’ feet are, for easier ingress and egress. The dramatic double-skinned dihedral doors hinge forwards and upwards as they open, taking a portion of roof in the process. The carbon cell had delivered a supercar as easy to get in and out of as easy is it was to extract maximum performance from.

And like the advantages introduced by MonoCell, the Spider version of 720S and subsequently 750S features a bespoke upper rear structure in carbon fibre, without the need for additional strengthening or reinforcement to go with it, ensuring thrilling dynamics and minimal weight increase. 

The McLaren Composites Technology Centre opens (2018)
The opening of the McLaren Composites Technology Centre (MCTC) in Sheffield, UK, in 2018 marked a £50m investment in the first standalone McLaren production facility outside Woking. This world-class facility, formed through a partnership between McLaren Automotive, the University of Sheffield’s AMRC and Sheffield City Council, aims to be a centre-of-excellence in both composites engineering and research, but also in production of new-generation carbon fibre tubs that can directly integrate with future powertrain technologies.

The first production carbon fibre parts to be manufactured at MCTC would be for the incredible, ultra-lightweight McLaren 765LT, the car’s active rear wing, rear bumper and front floor designed, engineered and manufactured at the centre. 

McLaren Artura (2021)
The McLaren Artura introduced the McLaren Carbon Lightweight Architecture (MCLA), designed specifically to integrate a new generation of high-performance hybrid powertrains. Lighter and stronger than previous chassis, the MCLA supports the Artura’s hybrid V6 powertrain, while continuing to optimise and develop further the structural advantages of using a carbon fibre monocoque. Manufactured at McLaren’s first ever major facility outside of its Woking HQ, the MCLA is made at the McLaren Composites Technology Centre in Sheffield. The MCLA marks a revolutionary moment in carbon fibre monocoque technology, enhancing not only the lightweight and rigidity benefits previously developed into the MonoCell and MonoCage II structures, but incorporating a safety cell for the battery of the hybrid system used by the Artura and integrating further crash and load-bearing functionality into the tub.

McLaren’s revolutionary technologies also allowed the Artura’s MCLA carbon fibre monocoque to be productionised in volumes never before achievable. And with the launch of the Artura Spider, McLaren continues its lightweight spider DNA with no further strengthening or reinforcement for the chassis of the Artura Spider required over its coupe variant – McLaren’s first convertible high performance hybrid supercar delivered without compromise.

 McLaren W1 (2024)
The McLaren W1 continues McLaren’s lightweight carbon fibre DNA evolution with the arrival of the Aerocell, our most radical and technologically advanced carbon fibre tub ever designed for a road car. Constructed using pre-preg carbon fibre, this technology – as used on the hyper exclusive, track-only Solus GT – uses composite that is pre-impregnated with a resin system that simplifies the curing process. Pressure treatment is then applied in the mould, which gives the Aerocell higher structural strength than comparable tubs.

Pound for pound, it results in a lighter tub that negates the need for additional bodywork in places on the car’s exterior – a lightweight benefit explored in the design of the W1. The Aerocell has also been designed as a key element of the W1’s extreme aerodynamic package making use of true ground effect, achieved by raising the floor of the monocoque by 65mm, which has lifted the footwell position and rising to 80mm towards the front of the Aerocell. At the same time, to reduce the length of the Aerocell – and of the overall vehicle – the decision was taken to fix the seat position and incorporate seating into the monocoque. Reducing the wheelbase by almost 70mm, this also has the added benefit of saving further weight.

The McLaren W1 also sees the introduction of McLaren’s next-generation carbon fibre technology; McLaren ART carbon fibre. Made possible via the development of McLaren’s breakthrough Automated Rapid Tape (ART) ‘high rate’ deposition manufacturing technique, McLaren ART carbon fibre unlocks new possibilities for engineers. Lighter and stiffer, produced with fewer waste materials, and enabling the rapid creation of optimised carbon fibre parts with specialised properties, the active front wing of the McLaren W1 debuts this new technology.

“Carbon fibre is integral to the McLaren story and a core part of our DNA. It enables us to deliver super-lightweight supercars with the very best dynamic attributes and it remains an area of technical exploration with much to discover, and many more gains to be realised.”
Michael Leiters, Chief Executive Officer, McLaren Automotive

About McLaren Automotive:
McLaren Automotive is a producer of ultra high-performance, lightweight supercars. Launched in 2010, the company is now the largest part of the McLaren Group.

Headquartered at the McLaren Technology Centre (MTC) in Woking, Surrey, England, McLaren Automotive is driven by the challenge of creating the world’s most exhilarating, engaging and benchmark setting vehicles. Leveraging over 60 years of history in authentic, racing performance, McLaren has delivered some of the most spectacular supercars ever made.

The company’s product portfolio of GTS, supercar, Motorsport and Ultimate models are retailed in over 40 markets around the world. Its cars are assembled by hand at the McLaren Production Centre (MPC), based on the same campus as MTC in Woking.

McLaren is a pioneer that continuously pushes the boundaries. In 1981, it introduced lightweight and strong carbon fibre chassis technology into Formula 1 with the McLaren MP4/1.

Then in 1993 it designed and built the legendary McLaren F1 road car. Built around a carbon fibre chassis, it established McLaren’s supercar DNA, realised for the 21^st century in 2011 with the introduction of the McLaren 12C – McLaren Automotive’s first production car.

McLaren was the first to deliver a hybrid hypercar, the McLaren P1™, in 2013. Launching the Ultimate Series of vehicles, P1™ was followed by the McLaren Senna in 2018 and its track-only GTR derivative followed a year later. 2019 also saw the introduction of the Speedtail hybrid hyper-GT and at the end of the year the  open-cockpit Elva roadster – the lightest McLaren road car ever – was announced.

McLaren’s LT models represent the ultimate expression of track performance in series production supercars. Limited in volume, they are distinguished by a name coming from the ‘Longtail’ version of the F1 GTR, which first raced in 1997. The LT designation was incorporated into McLaren Automotive nomenclature in 2015 with the arrival of the 675LT coupe and 675LT Spider. In 2018, the McLaren LT portfolio grew with the announcement of the 600LT, and in 2020 and 2021 respectively the 765LT coupe and 765LT Spider were introduced.

Also in 2021, the company unveiled its all-new high-performance hybrid supercar, the McLaren Artura. The Artura is the first McLaren to benefit from the McLaren Carbon Lightweight Architecture (MCLA). The MCLA is designed, developed and manufactured at the McLaren Composites Technology Centre in the Sheffield region of England using world-first processes and will spearhead the brand’s electrified future.

2022 saw McLaren announce the Solus GT, a single-seat, closed-cockpit track car which brought to life a futuristic concept that was originally created for virtual gaming.

In 2023, McLaren unveiled its lightest and most powerful series-production supercar, the 750S – a thorough development of the award-winning 720S supercar. McLaren also introduced the new GTS, replacing the McLaren GT.

The McLaren Artura Spider was revealed in early 2024 as the brand’s first high-performance hybrid convertible. Its introduction was part of a major model year uplift for the Artura nameplate, and meant McLaren’s series-production line-up of GTS, new Artura and 750S had been introduced within 12 months of each other.

A new chapter in the McLaren ‘1’ car story was announced in October 2024, with the reveal of the McLaren W1 supercar. A clear successor to the McLaren F1 and McLaren P1, the W1 is the manifestation of McLaren’s World Championship mindset, with epic power and performance and new heights of dynamic and aerodynamic excellence.

McLaren Automotive also chooses to partner with like-minded, world-leading companies and organisations who push the boundaries in their respective fields. These include Ashurst, Bowers & Wilkins, Dynisma, Gulf, Pirelli, Richard Mille and Tumi.

About McLaren Group: 
The McLaren Group is a global leader in high-performance supercar production and elite motorsports.

Founded in 1963 by racer, engineer and entrepreneur Bruce McLaren, the Group is formed of McLaren Automotive, which hand-builds lightweight supercars and races them in global series, including the World Endurance Championship; and a majority stake in McLaren Racing which competes in the Formula 1 World Championship, INDYCAR series, Formula E, Extreme E and F1 Academy.

The Group is globally headquartered at the iconic McLaren Technology Centre in Woking, Surrey, England.

With a reputation for innovation and technological excellence, McLaren is one of the UK’s largest independent companies.