Global Automotive Friction Materials Market 2023-2030

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    GLOBAL AUTOMOTIVE FRICTION MATERIALS MARKET

     

    INTRODUCTION

     

    Friction is an universal principle, and mankind have tried to influence it from olden days. For examples, another of the oldest manner in which individuals learnt to start fire was by producing friction between flammable materials like wood.

     

    Traction elements, also referred as braking compounds and clutches equipment, used to provide friction when slow or reduced movement is required. Friction is a force to relative velocity which resists the direction of motion of an item.

     

    When a solid item came in contact with a divergent surfaces, resistance is formed. Resistance may be utilised to slow or halt an item as well as to accelerate it to a specific speed.

     

    Resistance materials can be utilized in collision avoidance systems that slow down or stop vehicles including stopping other elements from moving at all.

     

    When you press a brake, you engage a mechanism in which a frictional substance is applied on a spinning discs, slowing it down the linked wheels.

     

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    Clutch and brake devices, operational systems, automobile machinery, helical gears devices, other mechanical components are all examples of applications requiring the ability to halt or slow down their activities.

     

    Traction materials used to manufacture elements also including friction pads and linings, as well as brake discs. Architecture, automobile, forests, oil, and natural gas, as well as manufacturing are among the businesses that often employ these items.

     

    GLOBAL AUTOMOTIVE FRICTION MATERIALS MARKET DEVELOPMENTS AND INNOVATIONS

     

    S No Overview of Development Development Detailing Region of Development Possible Future Outcomes
    1 Brakes India unveils high performance friction brake pads These pads have been formulated using latest technologies, to meet the needs of customers looking for high performance. Global This would enhance better Technologies and production

     

    GLOBAL AUTOMOTIVE FRICTION MATERIALS MARKET DYNAMICS

     

    Rigorous pollution standards have compelled major businesses to cut energy consumption and improve fuel economy.

     

    Developers of brakes frictional solutions are working on lowering provided accordingly as well as conserving the energy produced by temperature inside the batteries to increase efficiencies.

     

    Industrialized economies such as German, the United States, the United Kingdom, and Japanese having installed all four-brake system in automobiles at a frequency of 90-95 percent.

     

    The increased use of braking system within those nations can be ascribed to customers’ high-income levels as well as halting radius regulations.

     

    Conversely, nations such as India, Brazil, and Russia have such a 70 percent overall average of combined stopping installation and maintenance.

     

    Because of infrastructural needs, buyers in these nations favour economical automobiles. Because of rigorous stop length standards, notably in North America And Europe, brake pads are widely used in the commuter automobile category.

     

    Furthermore, disc brakes improve braking force and reliability, which will boost brake discs diffusion in the coming years. Hydraulic systems are generally seen to be a superior solution to stop an automobile than drum brakes for a myriad of purposes.

     

    With drum brakes, the excess heat transmitted to the brake pedal evaporates more quickly, brake wear happens more sonorously, and therefore usually stay drier in rainy conditions. Because of these benefits, disc brakes are becoming more popular all around the world.

     

    NEW PRODUCT LAUNCH

     

    Utilising its extensive knowledge of material science, Tenneco’s Ferodo® original equipment (OE) braking division has introduced advanced copper-free hybrid friction material composites that simultaneously meet the needs of braking performance and comfort in both internal combustion engine (ICE) and electric vehicles (EVs).

     

    The benefits of low steel (LS) and non-asbestos organic (NAO) composites are combined in a novel hybrid friction material that is intended for brake pads.

     

    At the business’s braking facility in Chongqing, China, the novel copper-free hybrid friction material has started to be produced in large quantities for a leading automaker worldwide. The testing and assessment phase of several projects is currently underway in Europe.

     

    High temperature braking performance is provided by LS materials, which also have the unusual ability to clean disc corrosion.

     

    Good NVH performance and little brake dust contamination are made possible with NAO materials. With a single approach, Tenneco’s special hybrid composite material is projected to meet a variety of market demands.

     

    It is especially well suited for the expanding selection of electric and electrified vehicles.

     

    While the braking system in conventional powertrains works to provide adequate deceleration and short stopping distances, battery-electric vehicles, hybrid, and plug-in hybrid vehicles are primarily decelerated by recuperation, largely using the electric motor.

     

    As there is no engine noise when the brakes are engaged, silent braking performance is essential for the comfort of the driver and passengers.

     

    Using air disc brakes in heavy-duty applications, TMD Friction has introduced a novel friction material. The brand-new material, Textar T3080, is designed for use in applications where high torque levels are necessary to comply with FMVSS121 Stopping Distance Regulations.

     

    Additionally, Textar T3080 already complies with environmental restrictions for copper content and heavy metals set forth by the Better Brakes Rules, a forthcoming obstacle for the brake friction business.

     

    For various truck, tractor and trailer applications, varied friction levels are necessary to best optimise pad and rotor life.

     

    Textar’s North American Air Disc Brake Friction product portfolio is now complete with T3080, which adds a material for the highest torque applications on the road.

     

    When comparing initial and life cycle costs of disc brakes to drum brakes, disc brakes will likely be preferred if drum brakes have to be replaced in large quantities. 

     

    Because disc brakes are more expensive up front, it’s important to maximise life and reduce operating expenses.   Four alternative friction compounds are currently available from Textar for the air disc brake industry in North America.

     

    For a specific duty cycle, each is built to minimise life cycle costs. TMD examined two air disc friction materials with varying effective coefficients of friction in dynamometer wear tests.

     

    According to the findings, a pad with a higher effective coefficient of friction (0.38) will wear down anywhere between 40% and 80% faster than one with a lower coefficient of friction (0.28).

     

    GLOBAL AUTOMOTIVE FRICTION MATERIALS MARKET SEGMENTATION

     

    The Global Automotive Friction Materials Market can be segmented into following categories for further analysis.

     

    By Application

    • Entry Level Vehicles
    • Mid-Level Vehicles
    • Luxury Class Vehicles

     

    By Product Type

    • Brakes
    • Clutches

     

    By Capacity Type

    • Composite Type
    • Non-Composite Type

     

    By Materials Type

    • Pads
    • Linings
    • Discs
    • Blocks

     

    By Architecture Type

    • Hybrid Propulsion Vehicle
    • Diesel Engine Vehicle
    • Petrol Engine Vehicle
    • Gasoline Engine Vehicle

     

    By Regional Classification

    • Asia Pacific Region – APAC
    • Middle East and Gulf Region
    • Africa Region
    • North America Region
    • Europe Region
    • Latin America and Caribbean Region

     

    RECENT TECHNOLOGICAL TRENDS IN GLOBAL AUTOMOTIVE FRICTION MATERIALS MARKET

     

    With automotive components, frictional braking employ friction between such a braking materials and then a spinning element (drum or disc) to slow or stop an automobile through converting kinetic energy mostly into heat generation.

     

    Numerous regulatory actions concerning by use of vitamins and minerals and toxic substances inside the transportation industries have already been implemented globally. As a result, the brake manufacturing business has been impacted.

     

    The advancement of brake lining technologies during the last 30 years has been linked to an endeavour to find ideal substances that would represent the needs dictated by personal transportation, economies, environmental problems, convenience, and growing performance demand.

     

    Braking system is a vital component of traffic safety, and despite the substitution of mesothelioma and the eventual eradication of copper, even in terms of the environmental impact Numerous investigators have been working on the creation of eco-friendly brake pad compositions

     

    It has throughout the last century by replacing potentially harmful chemicals such as Cu, Sn, antimony trisulfide, and whiskers compounds.

     

    Congressional brake rules, the elimination of asbestos from brake pads, and also the shift of large trucks to more energy-efficient, cheaper, more compact front-wheel drive vehicles are all factors.

     

    Such modifications prompted the establishment of a new category of fiber composites. Developments in braking system layouts and the development of novel brake pads throughout the last decades.

     

    GLOBAL AUTOMOTIVE FRICTION MATERIALS MARKET NEW ACQUISITION

     

    Federal-Mogul has sold its entire know-how and intellectual property rights for the research and production of friction materials for rail vehicles and industrial applications to Knorr-Bremse Rail Vehicle Systems.

     

    In exchange, Federal-Mogul will obtain a back licence from Knorr-Bremse, allowing it to continue to offer high-quality rail friction materials to its own clients.

     

    The two parties signed an agreement to that effect.Knorr-Bremse is bolstering its systems expertise by acquiring Federal-rail Mogul’s friction material know-how in order to develop new and better customer-oriented products.

     

    Through this acquisition, Knorr-Bremse is further reinforcing its systems expertise and investing in new and improved customer-oriented products.

     

    The integrated development of rail braking systems and brake pads will lead to greater deceleration, lower noise emissions and reduced life cycle costs. Customers and the environment will benefit from innovations in this field.

     

    In the future, Knorr-Bremse will manufacture these products at its own production site. Knorr-continued Bremse’s strategic growth in the friction material business includes the purchase of this rail product know-how.

     

    These well-planned acquisitions are growth and innovation levers for the company, allowing it to expand its systems expertise and improve its position in the aftermarket.

     

    COMPETITIVE LANDSCAPE

     

    Additionally, during the outbreak, passengers rail and commercial aviation infrastructures were shut down for an extended duration, lowering the amount for fiber composites used in train disc brakes and airplane clutch, brake pads, and gearing.

     

    Rail networks, on the other hand, were moving at full speed. Ceramics gearboxes can resist high temperatures and work before deteriorating at temperatures exceedingly as 550°C owing to repetitive clutch activation and disengage.

     

    Because of their superior properties, they are perfect for motorsport purposes and for usage in braking technologies in a variety of high-end vehicles.

     

    Miba Inc. is growing towards elevated performance requirements in the global market of operability.

     

    Throughout its imaginative breakthroughs and economical transmission as well as braking systems, the Miba Friction Group becomes a vital partner of the worldwide automobile industry.

     

    Miba supplies carbon friction realise in-house to be used in synchronization mechanisms of conventional and double gearboxes, in additional too wet-running fibre laminate, graphene, and powdered frictional plates for all-wheel propulsion systems.

     

    Additionally, the high – strength steel discs fabrication ensures excellent interactions amongst disc set elements. The clutching frictional layer is primarily responsible for sending torque multiplication, compressed air wear – and – tear, providing switching smoothness.

     

    Tokai Carbon is  part of the much-developed market of the global operations of transmission fluids integration usage within automotive application.

     

    These Compression melding produces made of durable particles contained. Metal components such as precious metals are combined with major influencing factor such as ceramics and dispersed graphene lubrication before being moulded and sintering (made solid).

     

    In 1949, Tokai Carbon started producing made of durable particles contained. These sintered metal resistance compounds are indeed employed in construction and agricultural machinery gearboxes and brakes, as well as industrial machinery.

     

    Tokai Carbon invented and sold paper friction materials, which seem to be non-asbestos frictional components.

     

    COMPANIES PROFILED

    1 Market Segmentation
    2 Scope of the report
    3 Abbreviations
    4 Research Methodology
    5 Executive Summary
    6 Introduction
    7 Insights from Industry stakeholders
    8 Cost breakdown of Product by sub-components and average profit margin
    9 Disruptive innovation in theIndustry
    10 Technology trends in the Industry
    11 Consumer trends in the industry
    12 Recent Production Milestones
    13 Component Manufacturing in US, EU and China
    14 COVID-19 impact on overall market
    15 COVID-19 impact on Production of components
    16 COVID-19 impact on Point of sale
    17 Market Segmentation, Dynamics and Forecast by Geography, 2023-2030
    18 Market Segmentation, Dynamics and Forecast by Product Type, 2023-2030
    19 Market Segmentation, Dynamics and Forecast by Application, 2023-2030
    20 Market Segmentation, Dynamics and Forecast by End use, 2023-2030
    21 Product installation rate by OEM, 2023
    22 Incline/Decline in Average B-2-B selling price in past 5 years
    23 Competition from substitute products
    24 Gross margin and average profitability of suppliers
    25 New product development in past 12 months
    26 M&A in past 12 months
    27 Growth strategy of leading players
    28 Market share of vendors, 2023
    29 Company Profiles
    30 Unmet needs and opportunity for new suppliers
    31 Conclusion
    32 Appendix
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