Automotive Flywheel Market Trends

Automotive Flywheel Market Overview

The Automotive Flywheel market is estimated to reach a valuation of USD 10.4 billion by the year 2032, at a CAGR of 3.6% during the forecast period 2024 to 2032.  The flywheel in an automobile is used for the transmission of power produced by the engine to the propeller shaft or the driving shaft of the automobile. Flywheels are typically made up of steel and resist the changes in rotational speed by moment of inertia.

The flywheel also serves as the mounting surface of the clutch assembly, while it also acts as a heat sink for the dissipation of heat from the pressure plate and disc. At the time of engagement, i.e., the contact between the clutch and the flywheel, a disc is clamped between the flywheel and pressure plate, which results in power transfer from the engine to the transmission. 

The Automotive Flywheel market has seen remarkable growth, owing to the rising production of vehicles globally during the past few years, which has eventually boosted the flywheel market significantly. The demand for commercial vehicles is extensively driven by growing industrialization and service sectors. 

Rising demand for key factors such as comfort, aesthetics & safety, and continuous improvement in technology are responsible for the expansion of the automotive flywheel market. For enhancement of comfort factors, i.e., the reduction of the vibration produced within the transmission assembly, the manufacturers have developed different technologies, which eventually lead the automotive flywheel market towards a growth trajectory.

Automotive Flywheel Market Trends Insights

The latest trend of employing composite materials in automotive flywheel manufacturing is aiding the market's growth. 

The utilization of composite materials in the construction of car flywheels provides numerous benefits compared to conventional materials. Composite flywheels employ a blend of materials, including carbon fibers integrated into a resin matrix, to produce a robust yet lightweight framework. These materials possess a substantially lower weight compared to iron and steel, resulting in a reduction of the overall weight of the flywheel. 

The decrease in weight leads to enhanced vehicle efficiency, faster engine response, and decreased rotational inertia. Furthermore, composites exhibit a superior strength-to-mass ratio in comparison to conventional materials. Strong flywheels are capable of withstanding the stresses associated with engine running while maintaining a low weight. Composite flywheels possess the ability to efficiently store and release energy as a result of their low density and high strength. This renders them well-suited for Kinetic Energy Recovery Systems (KERS) in which energy storage and release are of paramount importance. 

Moreover, the dampening characteristics of composite materials can effectively mitigate vibrations caused by the engine's firing pulses, hence enhancing engine performance and driver comfort. Designers can tailor the geometry of the flywheel for certain performance characteristics and space constraints within the vehicle by molding these materials into different shapes. Composite flywheels are capable of efficiently storing energy that is acquired during braking and can subsequently release it when required. This makes them well-suited for use in regenerative braking systems seen in hybrid automobiles and eventually aiding the growth of the automotive flywheel market.

Automotive Flywheel Market Segment Insights 

The Automotive Flywheel market is primarily segmented based on vehicle type, material, and flywheel type. 

Based on vehicle type, the Automotive Flywheel market is further sub-segmented into commercial and passenger vehicles. Out of which, the passenger vehicles segment dominates the global market share. Consumer aspirations for fuel-efficient, environmentally friendly, and technologically advanced vehicles are motivating manufacturers to innovate and produce new models that meet these preferences. In addition, government programs and regulations, including emissions standards, fuel economy targets, and incentives, can impact consumer decisions and compel automobile manufacturers to adjust their products accordingly. 

Furthermore, the demand for commercial cars is increasing significantly because of the enormous development in the e-commerce sector. The growth has resulted in a greater need for effective transportation and last-mile delivery services, leading to an increased use of commercial vehicles for managing logistics. Additionally, due to the thriving manufacturing industry that requires the movement of raw materials, parts, and finished products, there is currently a significant increase in the need for various types of commercial vehicles. These trends are expected to continue and are predicted to significantly contribute to the growth of the automotive flywheel industry throughout the forecast period.

Based on material, the automotive flywheel market is further sub-segmented into iron and steel, where the iron sub-segment dominates the global market share. Iron, known for its strength and resilience, demonstrates a great ability to endure high levels of stress and temperatures. This feature renders it appropriate for challenging conditions. Moreover, iron is a more cost-effective choice for energy storage solutions due to its great strength and density compared to other materials. 

Furthermore, it has excellent thermal conductivity, facilitating the dispersion of heat produced during the process of energy storage and release, hence potentially enhancing overall efficiency. Furthermore, iron flywheels might have a prolonged lifespan when subjected to appropriate maintenance. The factors mentioned above are expected to contribute to the dominant market share of the iron sector throughout the forecast period. 

Apart from this, steel flywheels have been increasingly popular in recent years because of their superior operational features. They facilitate seamless power distribution by storing surplus energy and releasing it as needed, perhaps enhancing the overall driving experience. Furthermore, these flywheels enhance fuel efficiency and enhance the recovery of energy via regenerative braking, thus aiding in the reduction of pollutants in hybrid vehicles.

Based on flywheel type, the automotive flywheel market is further divided into single mass and dual mass flywheel, where the dual mass flywheel type owes the major market share. A dual mass flywheel possesses exceptional vibration damping and shock absorption characteristics. This contributes to the reduction of noise and enhancement of overall driving comfort. Furthermore, it aids in diminishing the levels of noise within the cabin, leading to a more serene and enjoyable driving experience. 

Furthermore, contemporary dual mass flywheels use sophisticated materials and designs to enhance their performance and longevity. Dual mass flywheels are more complex in design than single mass flywheels. These flywheels are comprised of a single, solid material that rotates in conjunction with the engine. Dual mass flywheels are often heavier than other types of flywheels, resulting in slower throttle response and acceleration. Furthermore, they have the potential to convey a greater amount of engine vibrations and torque changes to both the drivetrain and the interior. In performance-oriented applications, single-mass flywheels are preferred due to their ability to deliver quick throttle response and accurate clutch control, prioritizing these factors over the dampening advantages offered by dual-mass flywheels.

Automotive Flywheel Market Region Insights 

The Automotive Flywheel market is primarily studied across four major regions, namely, North America, Europe, Asia-Pacific, and the Rest of the World. Out of which, the Asia-Pacific region dominates the global market share and is projected to experience the highest growth rate throughout the forecast period. The future prospects for the automotive industry in the Asia-Pacific region are highly favorable. The car demand is anticipated to be driven by rapid urbanization, the expanding middle-class population, and the rising disposable income in China, India, and Southeast Asian nations. The trend towards hybrid and driverless vehicles is also gaining traction, with numerous governments and manufacturers prioritizing sustainability and innovation. These factors are contributing to the widespread growth of the region. 

Europe is expected to have significant growth in the automotive flywheel market throughout the projected timeframe. The European automotive sector is likely to experience market expansion due to favorable trends in the region. Furthermore, Europe serves as a central location for the development and implementation of cutting-edge ideas and technologies, leading to significant progress in the field of vehicle production. Stringent pollution rules are compelling manufacturers to innovate and create more environmentally friendly alternatives. 

The industry's potential for expansion and competitiveness on a global scale is expected to be further enhanced by collaborative efforts between governments, manufacturers, and research institutes. Furthermore, North America is projected to experience a slower pace of growth compared to other regions. In recent years, there has been a decrease in the demand for vehicles with manual transmission in North America. The prevalence of automatic transmissions in the area has increased due to their convenience and user-friendly nature, particularly in congested traffic conditions.

Automotive Flywheel Market Key Players & Competitive Insights 

Major key competitors in the said market segment employ crucial strategies, including partnerships, joint ventures, mergers and acquisitions, product launches, and business expansion deals to expand their business operations across the globe and have a strong command over a certain region in the market. 

The prominent players in the global automotive flywheel market market include

• Schaeffler AG (Germany),


• American Axle & Manufacturing, Inc. (US),


• AISIN SEIKI Co., Ltd (Japan),


• Linamar Corportation (Canada),


• ZF Friedrichshafen AG (Germany),


• Valeo SA (France),


• LUTHRA INDUSTRIAL CORP (India),


• Skyway Precision, Inc. (US),


• Ford Motor Company (US),


• Iljin (Korea).

Automotive Flywheel Industry Developments:

January 2024

Taking advantage of the great success achieved by the Ninja 250, Ninja 300, and Ninja 400 models, the long-awaited Ninja 500 and Ninja 500 SE have joined the lively, lightweight, sporty segment, which is expected to attract much attention. Other fine touches include a light flywheel, a Denso stick-type ignition coil, a long-reach spark plug, and an optimized compression ratio, which work together to improve efficiency, performance, and cooling ability while minimizing electrical interference. In terms of design innovation, this engine also comes with a slimmer balancer shaft, different from previous engines, and an assist slipper clutch that gives a light lever feel and confidence for all users.

These bikes boast new engine chassis that are more agile than ever before yet do not compromise on firmness. In addition, many features are designed with riders' needs at heart, such as a laid-back riding position, LED headlights and seamless smartphone connectivity.

The powerplant of the Ninja 500 has been heavily revised so as to provide more thrust across the rev range compared to its predecessor model – The Ninja four hundred cc-based unit (stroke up bore increased). Displacement now stands at four fifty-one cubic centimeters with seventy points zero millimeters x fifty-eight point six mm bore & stroke measurements; not only does that mean lots of power packed into a small space frame, but it also greatly contributes toward making the overall bike slim enough for easy ground reach by feet when the rider is seated.

In order to achieve this additional output capacity downdraft intake system has been used where air flows directly down into cylinders, thereby filling them better, especially during high rpm operation. For best results, the maximum noiseless suction effect was ensured through the employment of a tall design five point eight liters air box while various left-right intake funnel heights were selected so as to smooth out torque response, henceforth realizing a wider power band across RPMs; fuel injectors being in close proximity from the intake ports ensure quick burn speed thus linear throttle feedback. 

Automotive Flywheel Market Segmentation