Aston Martin Valkyrie 2024 The Role of Specialized Tires in a Hypercars Performance

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Aston Martin Valkyrie 2024

Introduction 

The Aston Martin Valkyrie 2024 is not just any hypercar-it is the embodiment of cutting-edge engineering, designed to push the limits of what’s possible in automotive performance. With its roots in Formula 1 technology and a focus on uncompromised aerodynamics, the Valkyrie stands as one of the most extreme road-legal cars ever produced. Every element of this hypercar has been meticulously crafted to ensure it delivers breathtaking performance, whether on the track or the road.

One of the most critical components of any high-performance vehicle is the tires. In the case of the Aston Martin Valkyrie 2024, the tires are not merely an afterthought or off-the-shelf components—they are bespoke, precision-engineered pieces of technology developed specifically to meet the car’s extraordinary demands. These tires, designed by Michelin, are responsible for translating the Valkyrie’s immense power, speed, and agility to the asphalt, ensuring the car maintains optimal grip and control, even at the outermost edges of performance.

Without the right tires, a hypercar like the Valkyrie cannot fully realize its potential. The tires serve as the vital link between the car and the road, making sure that every aspect of the Valkyrie’s performance—its acceleration, cornering, and braking—can be maximized safely and effectively. This post explores the unique role that these bespoke tires play in unlocking the full capabilities of the Aston Martin Valkyrie 2024, shedding light on how they are specifically designed to handle the extraordinary demands of this automotive masterpiece.

The Aston Martin Valkyrie 2024 – A Hypercar Defined 

The Aston Martin Valkyrie 2024 is a groundbreaking hypercar that blurs the line between road cars and race cars, embodying the pinnacle of automotive engineering. Aston Martin collaborated with Red Bull Advanced Technologies and legendary Formula 1 designer Adrian Newey to create a car that is as close to a Formula 1 experience as possible, but in a road-legal package. Every aspect of the Valkyrie has been designed with an uncompromising focus on performance, weight reduction, and aerodynamic efficiency.

At the heart of the Valkyrie is a 6.5-liter naturally aspirated V12 engine, developed by Cosworth, one of the most respected names in motorsport engineering. This engine alone produces over 1,000 horsepower, propelling the car to speeds in excess of 250 mph. Coupled with an advanced hybrid system, the Valkyrie generates an awe-inspiring power-to-weight ratio that outstrips most Formula 1 cars, delivering an exhilarating driving experience.

The Valkyrie’s aerodynamic design is equally impressive. With a design that maximizes downforce and minimizes drag, the car features extensive use of carbon fiber to keep its weight as low as possible. Its radical design, including the open underfloor and extreme venturi tunnels, helps generate unprecedented levels of downforce, allowing the car to stick to the road like a race car. Every curve, vent, and surface on the car serves a functional purpose, contributing to its handling precision and high-speed stability.

One of the most striking aspects of the Valkyrie’s design is its cockpit, which is reminiscent of a fighter jet or an F1 car. The seating position places the driver almost in a reclining stance, optimizing the car’s center of gravity and giving a clear sense of connection to the road. The cabin is minimalist, focusing purely on functionality, with most controls integrated into the steering wheel to keep distractions at a minimum.

With such extreme performance capabilities, the Valkyrie requires components that can match its ambitions. The tires are no exception. Given the car’s high cornering speeds, powerful acceleration, and braking forces, the tires must withstand enormous loads while maintaining grip, even under the most challenging conditions. The bespoke tires engineered for the Valkyrie ensure that it can harness its power, speed, and aerodynamic grip to deliver a driving experience unlike any other road car on the planet.

The Aston Martin Valkyrie 2024 is not just a car; it is a technological marvel, designed to push the boundaries of what’s possible in automotive engineering. Every part of it, from the engine to the aerodynamics to the tires, works together to create a machine capable of delivering an unparalleled driving experience. In the realm of hypercars, the Valkyrie is truly a definition of the highest performance possible in a road-legal vehicle.

Bespoke Tires for Extreme Performance 

The Aston Martin Valkyrie 2024 is a hypercar like no other, and to match its extreme performance, it requires tires that are uniquely engineered to meet its extraordinary demands. For this reason, Aston Martin collaborated with Michelin to develop a set of bespoke tires specifically designed for the Valkyrie, tailored to handle the immense forces and speeds this car can generate. These aren’t your typical high-performance tires—they represent the cutting edge of tire technology, created to function as an integral component of the Valkyrie’s overall engineering.

At the core of these bespoke tires is the Michelin Pilot Sport Cup 2 range, known for its balance between road and track performance. However, the Valkyrie’s version is a highly specialized iteration of this tire, custom-developed to accommodate the car's radical aerodynamic design, ultra-lightweight construction, and its ability to generate massive downforce at high speeds. The goal in developing these tires was to ensure that they could perform at the highest level on both road and track, providing stability, grip, and responsiveness in all conditions the Valkyrie is designed to handle.

Collaboration with Michelin: Pushing Tire Engineering to New Limits

The partnership between Aston Martin and Michelin wasn’t a simple process of fitting an off-the-shelf tire. Michelin’s engineers worked closely with Aston Martin’s team to design tires that could withstand the extreme loads placed on them by the Valkyrie’s incredible aerodynamic downforce and high-speed cornering capabilities. This required not only adapting the compound and tread design but also engineering the internal structure of the tire to ensure it could handle the forces generated during intense braking, acceleration, and lateral movement.

The Valkyrie’s tires had to strike the perfect balance between grip and durability. Too soft a compound would wear out too quickly on the road, while too hard a compound would reduce the level of traction, particularly in high-speed corners. The tire compound used in the Valkyrie’s tires incorporates cutting-edge materials that provide maximum grip under extreme temperatures and forces, while also offering longevity and resilience for road driving.

Handling Over 1,000 Horsepower and 250 mph Speeds

One of the biggest challenges in developing these bespoke tires was ensuring they could handle the immense power output of the Valkyrie’s naturally aspirated V12 engine, which produces over 1,000 horsepower. When you combine this raw power with the car’s lightweight carbon fiber structure and aerodynamic capabilities, the forces acting on the tires during acceleration, cornering, and braking are astronomical.

At speeds exceeding 250 mph, the tires need to maintain stability and prevent overheating, as well as maintain consistent grip through sharp turns. The bespoke Michelin tires feature an advanced tread pattern designed to optimize contact with the road at high speeds, allowing the Valkyrie to maintain its grip and control even as it pushes the limits of what’s possible on asphalt. The tread design also aids in managing heat dissipation, ensuring that the tires don’t degrade or lose performance even during extended high-speed runs or intense track sessions.

Lightweight Design for Maximum Efficiency

Given the Valkyrie’s focus on weight reduction—with nearly every component designed to be as light as possible without compromising strength—the tires also had to contribute to this ethos. The bespoke tires have been optimized to reduce weight while retaining their structural integrity. Michelin utilized advanced materials in both the sidewalls and tread to create a tire that is not only light but also strong enough to withstand the extreme forces generated by the Valkyrie’s performance.

The lightweight construction of the tires is crucial in allowing the Valkyrie to achieve its lightning-quick acceleration and razor-sharp handling. Every gram saved in the tires contributes to the car’s overall performance, reducing rotational inertia and enhancing the car’s responsiveness to driver inputs. This attention to detail ensures that the Valkyrie’s tires perfectly complement the car’s ultra-lightweight chassis and overall design philosophy.

Custom-Engineered for Both Road and Track

Although the Valkyrie is designed to dominate the racetrack, Aston Martin wanted to ensure that its bespoke tires were also capable of handling road driving conditions. This presented a unique challenge for Michelin: to develop a tire that could perform like a race tire on the track but still provide the necessary durability, comfort, and safety for driving on regular roads.

The Michelin Pilot Sport Cup 2 tires for the Valkyrie are semi-slick, with a tread pattern that provides grip on dry surfaces while still offering enough water evacuation for safe driving in wet conditions. The balance between track performance and road usability means that Valkyrie owners can experience the full capabilities of their car on public roads, without having to worry about tire degradation or safety in everyday driving situations.

In summary, the bespoke Michelin tires on the Aston Martin Valkyrie 2024 are an essential component of the hypercar’s performance package. Engineered to handle the immense power, speed, and forces generated by the car, these tires are the result of cutting-edge research and development, pushing tire technology to new heights. Whether on the road or the track, these tires allow the Valkyrie to unleash its full potential, delivering an unparalleled driving experience for those fortunate enough to get behind the wheel.

Tire Specifications and Design 

The tires of the Aston Martin Valkyrie 2024 are no ordinary performance tires—they are highly specialized components engineered to complement the extreme performance characteristics of this hypercar. Michelin, a leader in high-performance tire manufacturing, developed the Pilot Sport Cup 2 specifically for the Valkyrie. These tires are built with precision to handle the immense speed, power, and aerodynamic forces that the car generates, while also providing the necessary durability for both track and road use. Every aspect of these tires—from their dimensions to their construction—has been meticulously designed to ensure that the Valkyrie can perform at its peak under all conditions.

Tire Dimensions and Structure

The dimensions of the Michelin Pilot Sport Cup 2 tires on the Aston Martin Valkyrie have been tailored to optimize handling, grip, and performance. The tires are extra-wide to maximize the contact patch with the road, which is essential for delivering the Valkyrie’s power to the ground and providing the traction needed to handle high-speed cornering.

Front Tires: The front tires are typically sized around 265/35 ZR20, with a 20-inch diameter. This size provides a balance between grip and agility, ensuring the front end of the Valkyrie responds quickly to steering inputs, which is crucial for precision handling at high speeds.

Rear Tires: The rear tires are notably wider, often sized around 325/30 ZR21, with a 21-inch diameter. This wider profile is essential for managing the immense power delivered by the Valkyrie’s V12 engine to the rear wheels. The larger rear tires help distribute the car’s weight and enhance grip during acceleration, ensuring stability even at speeds exceeding 250 mph.

The tire sizes also contribute to the overall aerodynamic efficiency of the Valkyrie. The wider rear tires create more stability, especially when combined with the car’s advanced active aerodynamics. The front and rear tires work together to ensure that the Valkyrie remains planted on the road or track, even during intense cornering or braking at high speeds.

Semi-Slick Tread Design

The Valkyrie’s Michelin Pilot Sport Cup 2 tires feature a semi-slick tread pattern, designed for high levels of dry grip while still maintaining enough grooves to safely evacuate water in wet conditions. This design ensures that the tires deliver the maximum possible performance in ideal conditions but also provide enough safety and functionality for road driving.

The tread pattern includes wide, smooth surfaces for maximum grip on dry roads, along with carefully placed grooves that provide water dispersion for wet-weather driving. While the tire is not intended for heavy rain or extreme wet conditions like a full wet-weather racing tire, the design offers a degree of versatility for real-world road use. This allows Valkyrie owners to drive their hypercar on public roads without needing to swap tires for different weather conditions.

Compound Technology: Grip Meets Durability

One of the most important aspects of the Valkyrie’s tire design is the rubber compound used in their construction. Michelin has developed a bespoke compound specifically for the Valkyrie, balancing grip, heat resistance, and durability. The tires are made from a high-grip rubber compound that offers exceptional traction on dry surfaces, essential for the Valkyrie’s extreme acceleration and cornering performance.

This compound is designed to maintain its performance under the high temperatures generated during hard driving, whether on the road or track. In hypercars like the Valkyrie, tires can quickly overheat due to the intense forces generated by the engine’s power and the aerodynamic downforce. Michelin’s engineers used advanced materials that not only provide maximum grip but also ensure that the tires maintain their integrity and performance even when subjected to the extreme heat generated at high speeds.

At the same time, these tires are built to offer a degree of durability that allows them to function on public roads. While they are primarily track-focused, the balance between grip and longevity means Valkyrie owners can use their hypercars for occasional road driving without excessively wearing down the tires or needing frequent replacements.

Internal Structure and Reinforcement

The internal structure of the Michelin tires for the Valkyrie is a feat of engineering designed to handle the massive forces exerted on the tires during high-speed driving. The reinforced sidewalls and multi-layered construction provide the rigidity needed to prevent deformation during high-speed cornering, while also ensuring that the tires can handle the extreme aerodynamic downforce generated by the car.

The Valkyrie’s downforce can exceed 1,800 kg (3,968 lbs) at high speeds, which puts an enormous amount of pressure on the tires. The internal structure must be strong enough to support these loads while maintaining a consistent contact patch with the road. Michelin has used lightweight yet durable materials in the tire’s construction to minimize weight while maximizing strength. This ensures that the tires can handle the intense vertical and lateral forces generated by the car without compromising performance.

Additionally, the tread belt and carcass of the tire are engineered to improve stability and heat dissipation. At high speeds, heat can build up quickly in the tires, and if not properly managed, it can lead to a reduction in performance or even tire failure. Michelin’s design for the Valkyrie’s tires includes advanced materials that dissipate heat efficiently, allowing the tires to maintain peak performance even during extended high-speed runs or track sessions.

Aerodynamic Efficiency and Reduced Rolling Resistance

The design of the Valkyrie’s tires also contributes to the car’s aerodynamic efficiency. By minimizing rolling resistance, the tires help reduce drag and improve overall fuel efficiency and performance. The smooth, semi-slick surface of the tires is designed to reduce turbulence around the wheels, contributing to the Valkyrie’s ability to cut through the air with minimal drag.

In high-performance cars like the Valkyrie, even small reductions in rolling resistance can have a noticeable impact on speed and efficiency. The tires work in harmony with the car’s aerodynamic bodywork, active aerodynamics, and lightweight construction to ensure that the Valkyrie can reach its top speeds while maintaining stability and control.

The Role of Tires in Valkyrie’s Handling and Performance 

When discussing the extreme capabilities of the Aston Martin Valkyrie 2024, one cannot overstate the critical role that its bespoke Michelin Pilot Sport Cup 2 tires play in realizing the hypercar’s full potential. In a car that’s designed to push the boundaries of performance, the tires are a fundamental component that directly affects how the Valkyrie handles, corners, accelerates, and brakes. These tires are far more than just rubber; they are engineered to act as a high-performance link between the car’s advanced mechanics and the road or track surface. Without them, the Valkyrie’s incredible power and agility would be impossible to control.

Enhanced Grip and Stability at High Speeds

The Valkyrie’s ability to achieve speeds well over 250 mph places extraordinary demands on its tires, making grip and stability at high speeds a top priority. The bespoke Michelin tires are designed to provide maximum grip on both straightaways and in high-speed corners, ensuring that the Valkyrie stays planted on the road even when pushing the limits of speed. The semi-slick tread pattern optimizes the tire’s contact with the road, increasing the size of the contact patch to deliver more surface area for grip. This is especially important in high-speed cornering, where the Valkyrie’s tires are subjected to immense lateral forces.

At these extreme speeds, maintaining stability is crucial—not only to ensure the driver’s safety but also to enable precise control over the car’s movement. The Valkyrie generates significant downforce through its aerodynamic design, and the tires must work in tandem with this downforce to maximize traction and stability. The custom tire compound, designed specifically for the Valkyrie, offers enhanced friction with the road surface, giving the driver confidence that the car will remain stable even when cornering at extreme speeds.

Precision Handling and Cornering

The Valkyrie’s tires are also crucial in delivering its precision handling. When navigating tight corners, the driver needs tires that respond immediately to steering inputs, allowing the car to change direction quickly and efficiently. The low-profile sidewalls and rigid internal structure of the Michelin tires provide the responsiveness necessary for sharp handling, reducing flex in the tires and allowing the car to react instantly to steering changes. This minimizes any delay between driver input and the car’s movement, ensuring that the Valkyrie feels nimble and agile despite its immense power and size.

Moreover, the Valkyrie’s aerodynamics and chassis design produce high levels of lateral G-force during cornering. The bespoke Michelin tires are engineered to withstand these lateral forces without losing traction or deforming, allowing the car to corner at much higher speeds than most road-legal vehicles. The high-grip rubber compound ensures that the tires maintain a solid connection with the road, even during extreme cornering maneuvers, preventing slip and ensuring that the driver remains in full control of the vehicle.

Braking Performance: Managing Immense Forces

Given the immense speeds that the Valkyrie can reach, the ability to stop quickly and safely is just as important as speed. The bespoke Michelin tires play a pivotal role in the Valkyrie’s braking performance, providing the necessary friction and stability to decelerate rapidly from extreme speeds. The car is equipped with high-performance carbon-ceramic brakes, but without the right tires to transfer that stopping power to the road, even the most advanced braking systems would be ineffective.

During braking, the tires must withstand significant vertical and horizontal forces as the car shifts its weight forward, increasing the load on the front tires. The reinforced structure of the Michelin Pilot Sport Cup 2 tires ensures that they maintain their shape under heavy braking, preventing the tires from deforming and losing contact with the road. This consistency in the tire’s performance is crucial for keeping the car stable during hard braking, reducing the risk of skidding or losing control.

Additionally, the bespoke tire compound allows the Valkyrie to maintain traction during intense deceleration, preventing the tires from locking up or sliding. This capability is essential when bringing the car down from its top speeds, especially in situations where rapid braking is required. The tires must dissipate heat efficiently during braking to avoid performance degradation, and Michelin has designed the Valkyrie’s tires with advanced materials that prevent overheating and ensure consistent braking performance under all conditions.

Supporting Aerodynamic Downforce

One of the most unique aspects of the Aston Martin Valkyrie’s performance is its ability to generate massive aerodynamic downforce, which dramatically enhances the car’s handling at high speeds. This downforce presses the car closer to the ground, increasing traction and stability. However, for the downforce to be fully effective, the tires must be able to handle the added load without compromising grip or performance.

At high speeds, the Valkyrie can produce over 1,800 kg (3,968 lbs) of downforce, which significantly increases the forces acting on the tires. The Michelin tires are specifically designed to manage this extra load, ensuring that the tires maintain their shape and structure under the extreme pressure of the downforce. The result is a car that remains firmly planted to the road, even during the most aggressive maneuvers.

The tread pattern and internal construction of the tires are optimized to work in conjunction with the Valkyrie’s aerodynamics, helping the car achieve superior handling and performance at high speeds. The tires’ ability to manage the extra downforce is crucial for maintaining high-speed stability and ensuring that the Valkyrie remains controllable even in extreme driving conditions.

Maximizing Acceleration

The Valkyrie’s naturally aspirated V12 engine produces over 1,000 horsepower, delivering breathtaking acceleration. However, without the right tires, this power would be useless, as the car would struggle to maintain traction during hard acceleration. The bespoke Michelin tires are designed to deliver maximum grip during acceleration, ensuring that the Valkyrie can put all of its power to the ground without excessive wheelspin.

The rear tires are particularly important in this regard, as they bear the brunt of the load during acceleration. The wide contact patch and high-grip compound of the Michelin Pilot Sport Cup 2 tires provide the necessary traction to manage the immense torque produced by the engine, allowing the Valkyrie to accelerate rapidly without losing grip. This is essential for the car’s 0-60 mph performance, as well as its ability to achieve top speeds quickly.

Furthermore, the tires’ ability to maintain grip during acceleration is crucial for corner exit performance. As the driver accelerates out of a corner, the tires must provide enough traction to prevent the car from sliding or spinning, ensuring that the Valkyrie maintains stability and control.

Road Usability vs. Track Performance 

The Aston Martin Valkyrie 2024 is an automotive marvel, designed to deliver world-class performance on the racetrack while remaining road-legal. This dual-purpose capability presents a unique challenge, especially when it comes to tire design. For a hypercar like the Valkyrie, balancing track-focused performance with road usability is essential, as it ensures that the car can perform at its peak on a circuit while still offering the necessary safety, comfort, and durability for street driving.

The bespoke Michelin Pilot Sport Cup 2 tires are engineered to meet these demands, providing the grip, handling, and durability required for both the race track and public roads. However, this balance between road usability and track performance involves intricate design compromises, pushing the limits of tire technology to deliver a tire that performs exceptionally in both environments.

The Challenge of Balancing Dual-Purpose Tires

A tire designed for a car as powerful and performance-oriented as the Valkyrie needs to excel in two very different environments: the smooth, predictable surfaces of a racetrack and the variable, less predictable conditions of public roads. This balance is a complex engineering challenge. Track tires, especially slicks or semi-slicks, are optimized for maximum grip, with minimal tread for water dispersion, and compounds that offer maximum friction at higher temperatures. On the other hand, road tires require versatility, the ability to handle different weather conditions, longer durability, and a more comfortable ride.

The Michelin Pilot Sport Cup 2 tires developed for the Valkyrie aim to bridge this gap. They are designed with advanced materials and technology to offer outstanding performance in both contexts. The result is a tire that offers incredible track capabilities, capable of handling extreme speeds and cornering forces, while still providing the reliability and safety required for everyday road use.

Track Performance: Precision, Grip, and Endurance

On the track, the Valkyrie’s tires are tasked with delivering maximum grip and precision. Track conditions are typically dry, smooth, and predictable, allowing the tires to perform at their highest level. The semi-slick tread design of the Michelin Pilot Sport Cup 2 tires for the Valkyrie prioritizes grip in these ideal conditions, with a high-contact patch and minimal tread voids to increase surface area and friction with the asphalt. This allows the Valkyrie to reach its extreme cornering limits, giving the driver the confidence to push the car harder with each lap.

The rubber compound of the Pilot Sport Cup 2 is also designed to handle the high temperatures generated during intense track driving. When driven hard on a track, tires heat up quickly due to the friction between the tire and the road. In racing conditions, this heat can exceed normal road driving levels, which can degrade standard road tires. However, the Valkyrie’s bespoke Michelin tires are engineered to maintain their structural integrity and grip even under extreme heat, ensuring that performance remains consistent throughout a track session.

Furthermore, the stiff sidewalls of the tires are critical for track performance. They reduce tire flex, which enhances the Valkyrie’s responsiveness to steering inputs, ensuring the driver can precisely control the car through corners. The minimal sidewall flex also helps maintain the tire’s contact patch with the road during high-speed cornering, preventing the tires from losing grip under extreme lateral forces.

In terms of braking, the track-optimized tires enable the Valkyrie to make full use of its carbon-ceramic braking system. The tires provide the necessary traction for the car to decelerate from high speeds rapidly, while also managing the heat generated by braking. This is particularly important in track environments where braking is repeated multiple times per lap at very high speeds, requiring the tires to maintain consistent performance throughout.

Road Usability: Durability, Comfort, and Safety

While the Valkyrie’s performance on the track is nothing short of extraordinary, the car is also designed to be driven on public roads, and this requires its tires to offer a different set of characteristics. On the road, tire performance isn’t just about maximizing grip and minimizing lap times; safety, durability, and comfort are equally important.

One of the key challenges for road usability is weather variability. Unlike the track, where conditions are controlled and predictable, road surfaces can vary significantly, from smooth highways to uneven city streets, and drivers may encounter rain, gravel, or other debris. Michelin addressed this challenge by incorporating grooves in the Pilot Sport Cup 2’s tread design, allowing for some level of water dispersion, which is essential for maintaining traction in wet conditions. While these tires aren’t designed for heavy rain or extreme wet-weather driving, they offer enough tread to manage light rain and damp road surfaces, ensuring the Valkyrie remains safe and controllable on public roads.

Another critical factor for road usability is durability. Track tires tend to wear out much faster than road tires due to their softer rubber compounds, which are designed for maximum grip but have a shorter lifespan. However, the Valkyrie’s Michelin tires are engineered with a compound that balances grip with longevity. This allows the tires to last longer on public roads while still providing the high levels of performance needed for occasional track use. This extended durability is particularly important for Valkyrie owners who intend to use their car for both road and track driving, as it reduces the need for frequent tire changes.

Ride comfort is another consideration for road usability. While the Valkyrie is a hypercar with a firm, performance-oriented ride, its tires still need to offer a certain degree of comfort on the road. The Michelin tires feature a tread design and internal structure that help absorb some of the bumps and imperfections commonly found on public roads, reducing harshness and vibration. While the Valkyrie is not built for luxury comfort, its tires are designed to make road driving more manageable without sacrificing too much of the car’s razor-sharp performance.

Lastly, safety is paramount for road driving. The Michelin tires must provide reliable performance in various road conditions, including sudden braking or evasive maneuvers. The advanced compound and construction of the tires ensure that they maintain grip even in emergency situations, helping drivers keep control of the car. This focus on safety is essential for a car as powerful as the Valkyrie, where even minor misjudgments can lead to significant consequences.

Transitioning Between Road and Track

One of the remarkable aspects of the Valkyrie’s bespoke Michelin tires is their ability to seamlessly transition between road driving and track performance. While some high-performance cars require separate tire sets for track days and road use, the Valkyrie’s tires are engineered to perform in both environments, eliminating the need for frequent tire swaps. This versatility is one of the most significant advantages for Valkyrie owners, allowing them to drive their car to the track, race it at peak performance, and then drive it home—all on the same set of tires.

This dual-purpose nature means that the tires must be capable of managing heat cycles—the process of heating up and cooling down that occurs during track sessions. Tires that are not designed for this can lose performance or become less effective after multiple heat cycles. Michelin has engineered the Valkyrie’s tires to withstand repeated heat cycles, ensuring they maintain their grip and performance even after being pushed hard on the track and then driven on the road.




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