The global automotive brake shims market size recorded sales of US$ 315.2 million in 2018. The market experienced a 5.2% year-on-year growth in 2022. It is anticipated to achieve revenues of US$ 349.0 million in 2023.
Over the assessment period from 2023 to 2033, the global market is projected to expand at a CAGR of 5.6%. It is expected to result in a market size of US$ 604.5 million by the end of 2033.
Automotive brake shims are set to be vital components strategically placed between the brake pads and calipers in vehicles. Ability of these thin, insulating materials to minimize noise, vibrations, and harshness during braking maneuvers might push their demand.
Brake shims are projected to significantly contribute to enhanced vehicle comfort and passenger satisfaction. This is attributed to their ability to effectively dampen vibrations and absorb noise generated from the contact between the brake pad and caliper.
Rising production of electric vehicles (EVs) is significantly impacting the global automotive brake shims industry, with a strong focus on noise reduction and improved brake performance. The demand for specialized brake shims that dampen noise and vibrations in EVs is increasing. This is due to the replacement of traditional friction-based ones with regenerative braking systems.
Manufacturers are adapting their production to meet these requirements, driving innovation for higher durability and compatibility with regenerative setups. Growing aftermarket for electric vehicles necessitates replacement of brake shims, further fueling the market's evolution.
Shift toward electric vehicles is also projected to reshape the automotive brake shims industry. It is set to help in emphasizing their vital role in ensuring a smoother and quieter braking experience for EV drivers.
Using recycled rubber and bio-based composites as materials for brake shims might help to reduce waste and minimize the environmental impact of manufacturing. This is important as the automotive sector has a significant impact on the environment. Efforts to reduce waste and emissions are crucial for a sustainable future.
Use of sustainable materials can also enhance the performance of brake shims. Recycled rubber is often used as a reinforcement material in brake shims.
It can improve the shims' durability and resistance to wear & tear. Bio-based composites, on the other hand, can offer unique properties such as high strength and stiffness. These can improve the performance of such brakes.
With growing popularity of EVs, which have a different braking system than traditional vehicles, use of brake shims has become increasingly important. EVs rely on regenerative braking. It captures the energy that would otherwise be lost as heat and converts it into electricity to recharge batteries.
It can lead to uneven brake pad wear and a need for more precise brake alignment. As a result, demand for specialized brake shims that cater to unique braking characteristics of EVs might increase.
New shims are designed to provide the necessary support and alignment for brake pads and rotors. They further help in ensuring that the braking system functions properly and that the EV can stop safely & efficiently.
Latest Market Trends as Listed by Future Market Insights (FMI)
| Attribute | Key Insights |
|---|---|
| Automotive Brake Shims Market Estimated Size (2023E) | US$ 349.0 million |
| Projected Market Valuation (2033E) | US$ 604.5 million |
| Value-based CAGR (2023 to 2033) | 5.6% |
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In the historical period from 2018 to 2022, the global automotive brake shims market recorded a CAGR of 5.2%. It reached a market size of US$ 349.0 million in 2023.
Brake shims made a massive difference in eliminating noise and giving a smoother & more comfortable ride. Brake noise can contribute to low customer satisfaction and hefty warranty costs.
The automotive sector hence placed a high priority on the development of brake systems that produce minimal noise. Increased vehicle use and soaring traffic might cause vehicles to generate more heat, which can harm brake shims and other braking components.
Replacement of brake components is likely to generate a surging demand for aftermarket items. This is anticipated to further boost automotive brake shim sales.
Looking ahead, the global automotive brake shims industry is expected to rise at a CAGR of 5.6% from 2023 to 2033. During the forecast period, market size is expected to reach US$ 604.5 million.
Growing aftermarket for automotive brake shims is driven by several factors. One of the primary factors is increasing number of vehicles on the road.
As the global population grows, and the demand for transportation increases, number of vehicles on the road is also expected to rise. This, in turn, has led to an increasing number of accidents and the need for replacement & upgrades of brake systems.
Another factor driving growth in the market is increasing demand for better braking systems. With advancement of technology, automakers are now equipping their vehicles with unique braking systems that provide improved performance and safety. This has led to an increased demand for brake shims, as they are an essential component of the braking system.
The market for automotive brake shims is driven by increasing adoption of regenerative braking technologies. Regenerative braking is a system that converts kinetic energy of a vehicle into electrical energy. It can be stored in the battery for later use.
The system might help to reduce a vehicle's fuel consumption and emissions, making it more environmentally friendly. In addition, regenerative braking helps to lower wear & tear on brake pads and rotors, as the braking force is applied more gently. This could result in a longer lifespan for brake components, thereby lowering maintenance costs for vehicle owners.
Aftermarket for automobile brake shims is expanding due to several factors. Growing number of vehicles on the road is one of the main contributing reasons. Number of automobiles on the road is rising along with the global population and demand for transportation.
There are nowadays more accidents, necessitating the replacement and improvement of brake systems. Rising demand for more significant braking systems is another factor driving the market.
Automakers are increasingly fitting their vehicles with advanced braking systems that offer enhanced performance and safety due to technological advancements. As a result, demand for brake shims is increasing as they are an essential part.
Use of sustainable braking systems in commercial vehicles is becoming increasingly important as concerns about the environment grow. These systems are designed to reduce the amount of energy required to stop a vehicle. It can lead to lower fuel consumption and reduced emissions.
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Rising adoption of brake-by-wire technology in the automotive sector is reshaping braking systems by replacing conventional mechanical linkages with electronic systems. Brake-by-wire systems can provide precise braking control, faster response times, and potential weight savings. This is due to the elimination of mechanical components.
Automakers might embrace this technology for its potential benefits in EVs and autonomous driving systems. Hence, demand for traditional brake shims might face several challenges.
Economic uncertainties such as global recessions or fluctuations in consumer purchasing power can significantly influence the automotive sector’s dynamics. This might also include the demand for brake shims.
During periods of economic downturn, consumers often become more price-conscious, seeking cost-effective repair and maintenance options for their vehicles. As a result, they might defer non-essential brake system upgrades, opting for lower-cost alternatives, including budget-friendly brake shims.
The United States automotive brake shims market is expected to reach a value of US$ 100.1 million by 2033, expanding at a CAGR of 5.7%. The market is set to experience a surging demand due to increasing requirements for noise reduction and improved braking performance.
Technology to lessen vibration, sound waves, and severity during braking is becoming more in demand as customers look for ease and security in automobiles. Brake shims are essential for improving the whole experience of driving. They might reduce the pain brought on by noise and vibrations associated with these brakes.
Manufacturers in the United States are also inventing and adjusting their brake shim manufacturing to meet the shifting needs brought on by EVs and changing preferences. These advancements could emphasize robustness, compatibility with regenerative brake systems, and improved noise & vibration reduction performance.
The automobile sector is working to embrace sustainable methods as environmental issues become more prominent. These trends are supported by bio-based composites and recycled rubber brake shims since they lessen waste and have a positive environmental impact. Usage of such materials might increase demand from customers who care about the environment.
In addition to making braking quieter and smoother, brake shims are essential for maintaining the correct alignment and operation of brake pads and discs. Demand for efficient brake shims might rise by the necessity of maintaining this alignment to guarantee excellent brake efficiency and general safety.
Germany automotive brake shims industry is expected to surpass a market value of US$ 26.3 million, expanding at a CAGR of 3.8% during the forecast period. Increasing demand for sports vehicles in Germany is set to augment sales in both the OEM and aftermarket sectors.
Sports cars are known for their high-performance characteristics. As more individuals purchase them, the need for highly effective braking systems becomes essential. As per Germany Trade and Invest (GTAI), the country has around 25% of all passenger cars produced and about 20% of all new registrations in Europe. This makes Germany Europe's top automotive sector in terms of sales and production.
The country also has Europe's most prominent concentration of OEM factories. Germany currently has 44 OEM locations there. In the European Union (EU), the country’s OEM market share exceeded 55% in 2021.
China automotive brake shims market is anticipated to reach a value of US$ 58.8 million, moving at a CAGR of 5.9% during the review period. The China market is experiencing significant growth due to rising demand from the automotive and manufacturing sectors.
The car sector in China has expanded quickly, making it the most significant in the world. Need for high-quality brake shims that improve passenger comfort, protection, and performance might rise due to increasing number of vehicles on the road.
Due to industrialization and population expansion, traffic congestion in China's urban centers has worsened. Wear and tear on brake systems is greater in stop-and-go traffic situations. In crowded city areas, brake shims might become essential for reducing noise and vibration, as well as in assuring a smoother braking experience.
Demand for more expensive cars with cutting-edge amenities is being driven by China's growing middle class. Brake shims are a sought-after component in contemporary vehicles since they contribute to improving the quality of one’s driving experience.
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The rubber material segment is expected to dominate the automotive brake shims industry with a CAGR of 5.7% from 2023 to 2033. It is projected to hold a share of around 66.5% in 2023.
Brake shims made of rubber are designed to dampen vibrations and reduce noise during braking. They might act as a cushion between the brake pad and caliper. At the same time, they might effectively minimize brake squeal and provide a smoother, quieter braking experience.
Rubber material also possesses excellent properties in applications with high insulation for vibration and noise. Hence, they might have the ability to retain integrity during high pressure and temperature. They can also prevent brake pistons from excessive heating, thereby increasing safety.
The passenger vehicles segment in terms of application is projected to generate around 73.7% of automotive brake shims market share in 2023. It is expected to showcase a CAGR of 5.6% in the assessment period.
Brake pad shims for passenger cars are typically made of a combination of fiber and rubber materials. These shims are specifically designed and engineered to meet original equipment (OE) standards. They might further work within the tolerances set by several vehicle manufacturers.
One of the main purposes of these shims is to maintain the original engineering ‘tune’ of vehicles. It is established during the vehicle's noise, vibration, and harshness (NVH) testing.
Goal of this testing is to ensure that brake noise emissions are kept within a range that falls outside the range of human hearing. In other words, the aim is to minimize brake noise so that it is not audible inside the cabin of vehicles.
Several companies are focusing on launching innovative and technologically advanced solutions in the automotive brake shims field in order to increase efficiency. Prominent players are aiming to engage in acquisition strategies. They are also involved in the production of unique and integrated IoT solutions to meet end-user requirements.
Companies are further focusing on new technology development, especially in developing countries owing to rising demand for automotive brake shims. Manufacturing companies are further focusing on new product launches to gain a competitive edge.
For instance,
| Attribute | Details |
|---|---|
| Estimated Market Size (2023) | US$ 349.0 million |
| Projected Market Valuation (2033) | US$ 604.5 million |
| Value-based CAGR (2023 to 2033) | 5.6% |
| Historical Data | 2018 to 2022 |
| Forecast Period | 2023 to 2033 |
| Quantitative Units | Value (US$ million) |
| Segments Covered | Material, Application, Sales Channels, Region |
| Regions Covered | North America; Latin America; Western Europe; Eastern Europe; East Asia; Central Asia; Russia & Belarus; Balkan & Baltics; South Asia Pacific; Middle East and Africa |
| Key Companies Profiled | Robert Bosch GmbH; ZF Friedrichshafen AG; Valeo S.A; Delphi Automotive PLC; Nisshinbo Holdings Inc.; Brembo S.p.A.; Akebono Brake Industry Co., Ltd.; EBC Brakes; DSS Brakes; Miba AG |
| Report Coverage | Revenue Forecast, Volume Forecast, Company Ranking, Competitive Landscape, Growth Factors, Trends and Pricing Analysis |
The global market is expected to hit a value of US$ 604.5 million by 2033.
The global market is set to expand at 5.6% CAGR from 2023 to 2033.
The global market expanded at a CAGR of 5.2% from 2018 to 2022.
The United States is anticipated to reach a valuation of US$ 100.1 million by 2033.
Passenger vehicles segment is projected to witness 5.6% CAGR through 2033.
China market is estimated to witness a 5.9% CAGR from 2023 to 2033.
1. Executive Summary 1.1. Global Market Outlook 1.2. Demand Side Trends 1.3. Supply Side Trends 1.4. Technology Roadmap 1.5. Analysis and Recommendations 2. Market Overview 2.1. Market Coverage / Taxonomy 2.2. Market Definition / Scope / Limitations 3. Key Market Trends 3.1. Key Trends Impacting the Market 3.2. Product Innovation / Development Trends 4. Key Success Factors 4.1. Product Adoption / Usage Analysis 4.2. Product USPs / Features 4.3. Strategic Promotional Strategies 5. Global Market Demand Analysis 2018 to 2022 and Forecast, 2023 to 2033 5.1. Historical Market Volume (Units) Analysis, 2018 to 2022 5.2. Current and Future Market Volume (Units) Projections, 2023 to 2033 5.3. Y-o-Y Growth Trend Analysis 6. Global Market - Pricing Analysis 6.1. Regional Pricing Analysis By Material 6.2. Global Average Pricing Analysis Benchmark 7. Global Market Demand (in Value or Size in US$ million) Analysis 2018 to 2022 and Forecast, 2023 to 2033 7.1. Historical Market Value (US$ million) Analysis, 2018 to 2022 7.2. Current and Future Market Value (US$ million) Projections, 2023 to 2033 7.2.1. Y-o-Y Growth Trend Analysis 7.2.2. Absolute $ Opportunity Analysis 8. Market Background 8.1. Macro-Economic Factors 8.1.1. Global GDP Growth Outlook 8.1.2. Manufacturing Value-Added 8.1.3. Industry Value Added 8.1.4. Parent Market Outlook 8.1.5. Other Macro-Economic Factors 8.2. Forecast Factors - Relevance & Impact 8.2.1. Top Companies Historical Growth 8.2.2. GDP Growth forecast 8.2.3. Manufacturing Industry forecast 8.2.4. Global Urbanization Growth Outlook 8.2.5. Business Climate 8.2.6. Covid-19 Impact Assessment 8.2.7. End-use Industry Growth Outlook 8.3. Value Chain 8.3.1. Product Manufacturers 8.3.2. End Users 8.3.3. Avg. Profitability Margins 8.4. COVID-19 Crisis – Impact Assessment 8.4.1. Current Statistics 8.4.2. Short-Mid-Long Term Outlook 8.4.3. Likely Rebound 8.5. Market Dynamics 8.5.1. Drivers 8.5.2. Restraints 8.5.3. Opportunity Analysis 9. Global Market Analysis 2018 to 2022 and Forecast 2023 to 2033, By Material 9.1. Introduction / Key Findings 9.2. Historical Market Size (US$ million) and Volume Analysis By Material, 2018 to 2022 9.3. Current and Future Market Size (US$ million) and Volume Analysis and Forecast By Material, 2023 to 2033 9.3.1. Rubber Material 9.3.2. Pressure Sensitive Adhesive (PSA) Material 9.3.3. Thermoset Material 9.3.4. Others 9.4. Market Attractiveness Analysis By Material 10. Global Market Analysis 2018 to 2022 and Forecast 2023 to 2033, By Application 10.1. Introduction / Key Findings 10.2. Historical Market Size (US$ million) and Volume Analysis By Application, 2018 to 2022 10.3. Current and Future Market Size (US$ million) and Volume Analysis and Forecast By Application, 2023 to 2033 10.3.1. Two Wheeler 10.3.2. Passenger Vehicle 10.3.3. Commercial Vehicle 10.4. Market Attractiveness Analysis By Application 11. Global Market Analysis 2018 to 2022 and Forecast 2023 to 2033, By Sales Channel 11.1. Introduction / Key Findings 11.2. Historical Market Size (US$ million) and Volume Analysis By Sales Channel, 2018 to 2022 11.3. Current and Future Market Size (US$ million) and Volume Analysis and Forecast By Sales Channel, 2023 to 2033 11.3.1. OEM 11.3.2. Aftermarket 11.4. Market Attractiveness Analysis By Sales Channel 12. Global Market Analysis 2018 to 2022 and Forecast 2023 to 2033, by Region 12.1. Introduction 12.2. Historical Market Size (US$ million) and Volume Analysis By Region, 2018 to 2022 12.3. Current Market Size (US$ million) and Volume Analysis and Forecast By Region, 2023 to 2033 12.3.1. North America 12.3.2. Latin America 12.3.3. Western Europe 12.3.4. Eastern Europe 12.3.5. Central Asia 12.3.6. Russia & Belarus 12.3.7. Balkan & Baltic Countries 12.3.8. Middle East and Africa 12.3.9. East Asia 12.3.10. South Asia and Pacific 12.4. Market Attractiveness Analysis By Region 13. North America Market Analysis 2018 to 2022 and Forecast 2023 to 2033 13.1. Introduction 13.2. Pricing Analysis 13.3. Historical Market Size (US$ million) and Volume Trend Analysis By Market Taxonomy, 2018 to 2022 13.4. Market Size (US$ million) and Volume Forecast By Market Taxonomy, 2023 to 2033 13.4.1. By Country 13.4.1.1. United States 13.4.1.2. Canada 13.4.2. By Material 13.4.3. By Application 13.4.4. By Sales Channel 13.5. Market Attractiveness Analysis 13.5.1. By Country 13.5.2. By Material 13.5.3. By Application 13.5.4. By Sales Channel 13.6. Market Trends 13.7. Key Market Participants - Intensity Mapping 13.8. Drivers and Restraints - Impact Analysis 14. Latin America Market Analysis 2018 to 2022 and Forecast 2023 to 2033 14.1. Introduction 14.2. Pricing Analysis 14.3. Historical Market Size (US$ million) and Volume Trend Analysis By Market Taxonomy, 2018 to 2022 14.4. Market Size (US$ million) and Volume Forecast By Market Taxonomy, 2023 to 2033 14.4.1. By Country 14.4.1.1. Brazil 14.4.1.2. Mexico 14.4.1.3. Argentina 14.4.1.4. Rest of Latin America 14.4.2. By Material 14.4.3. By Application 14.4.4. By Sales Channel 14.5. Market Attractiveness Analysis 14.5.1. By Country 14.5.2. By Material 14.5.3. By Application 14.5.4. By Sales Channel 14.6. Market Trends 14.7. Key Market Participants - Intensity Mapping 14.8. Drivers and Restraints - Impact Analysis 15. Western Europe Market Analysis 2018 to 2022 and Forecast 2023 to 2033 15.1. Introduction 15.2. Pricing Analysis 15.3. Historical Market Size (US$ million) and Volume Trend Analysis By Market Taxonomy, 2018 to 2022 15.4. Market Size (US$ million) and Volume Forecast By Market Taxonomy, 2023 to 2033 15.4.1. By Country 15.4.1.1. Germany 15.4.1.2. Italy 15.4.1.3. France 15.4.1.4. United Kingdom 15.4.1.5. Spain 15.4.1.6. BENELUX 15.4.1.7. NORDICS 15.4.1.8. Rest of Western Europe 15.4.2. By Material 15.4.3. By Application 15.4.4. By Sales Channel 15.5. Market Attractiveness Analysis 15.5.1. By Country 15.5.2. By Material 15.5.3. By Application 15.5.4. By Sales Channel 15.6. Market Trends 15.7. Key Market Participants - Intensity Mapping 15.8. Drivers and Restraints - Impact Analysis 16. Eastern Europe Market Analysis 2018 to 2022 and Forecast 2023 to 2033 16.1. Introduction 16.2. Pricing Analysis 16.3. Historical Market Size (US$ million) and Volume Trend Analysis By Market Taxonomy, 2018 to 2022 16.4. Market Size (US$ million) and Volume Forecast By Market Taxonomy, 2023 to 2033 16.4.1. By Country 16.4.1.1. Poland 16.4.1.2. Hungary 16.4.1.3. Romania 16.4.1.4. Czech Republic 16.4.1.5. Rest of Eastern Europe 16.4.2. By Material 16.4.3. By Application 16.4.4. By Sales Channel 16.5. Market Attractiveness Analysis 16.5.1. By Country 16.5.2. By Material 16.5.3. By Application 16.5.4. By Sales Channel 16.6. Market Trends 16.7. Key Market Participants - Intensity Mapping 16.8. Drivers and Restraints - Impact Analysis 17. Central Asia Market Analysis 2018 to 2022 and Forecast 2023 to 2033 17.1. Introduction 17.2. Pricing Analysis 17.3. Historical Market Size (US$ million) and Volume Trend Analysis By Market Taxonomy, 2018 to 2022 17.4. Market Size (US$ million) and Volume Forecast By Market Taxonomy, 2023 to 2033 17.4.1. By Material 17.4.2. By Application 17.4.3. By Sales Channel 17.5. Market Attractiveness Analysis 17.5.1. By Material 17.5.2. By Application 17.5.3. By Sales Channel 17.6. Market Trends 17.7. Key Market Participants - Intensity Mapping 17.8. Drivers and Restraints - Impact Analysis 18. Russia & Belarus Market Analysis 2018 to 2022 and Forecast 2023 to 2033 18.1. Introduction 18.2. Pricing Analysis 18.3. Historical Market Size (US$ million) and Volume Trend Analysis By Market Taxonomy, 2018 to 2022 18.4. Market Size (US$ million) and Volume Forecast By Market Taxonomy, 2023 to 2033 18.4.1. By Material 18.4.2. By Application 18.4.3. By Sales Channel 18.5. Market Attractiveness Analysis 18.5.1. By Material 18.5.2. By Application 18.5.3. By Sales Channel 18.6. Market Trends 18.7. Key Market Participants - Intensity Mapping 18.8. Drivers and Restraints - Impact Analysis 19. Balkan & Baltic Countries Market Analysis 2018 to 2022 and Forecast 2023 to 2033 19.1. Introduction 19.2. Pricing Analysis 19.3. Historical Market Size (US$ million) and Volume Trend Analysis By Market Taxonomy, 2018 to 2022 19.4. Market Size (US$ million) and Volume Forecast By Market Taxonomy, 2023 to 2033 19.4.1. By Material 19.4.2. By Application 19.4.3. By Sales Channel 19.5. Market Attractiveness Analysis 19.5.1. By Material 19.5.2. By Application 19.5.3. By Sales Channel 19.6. Market Trends 19.7. Key Market Participants - Intensity Mapping 19.8. Drivers and Restraints - Impact Analysis 20. South Asia and Pacific Market Analysis 2018 to 2022 and Forecast 2023 to 2033 20.1. Introduction 20.2. Pricing Analysis 20.3. Historical Market Size (US$ million) and Volume Trend Analysis By Market Taxonomy, 2018 to 2022 20.4. Market Size (US$ million) and Volume Forecast By Market Taxonomy, 2023 to 2033 20.4.1. By Country 20.4.1.1. India 20.4.1.2. Association of Southeast Asian Nations 20.4.1.3. Oceania 20.4.1.4. Rest of South Asia & Pacific 20.4.2. By Material 20.4.3. By Application 20.4.4. By Sales Channel 20.5. Market Attractiveness Analysis 20.5.1. By Country 20.5.2. By Material 20.5.3. By Application 20.5.4. By Sales Channel 20.6. Market Trends 20.7. Key Market Participants - Intensity Mapping 20.8. Drivers and Restraints - Impact Analysis 21. East Asia Market Analysis 2018 to 2022 and Forecast 2023 to 2033 21.1. Introduction 21.2. Pricing Analysis 21.3. Historical Market Size (US$ million) and Volume Trend Analysis By Market Taxonomy, 2018 to 2022 21.4. Market Size (US$ million) and Volume Forecast By Market Taxonomy, 2023 to 2033 21.4.1. By Country 21.4.1.1. China 21.4.1.2. Japan 21.4.1.3. South Korea 21.4.2. By Material 21.4.3. By Application 21.4.4. By Sales Channel 21.5. Market Attractiveness Analysis 21.5.1. By Country 21.5.2. By Material 21.5.3. By Application 21.5.4. By Sales Channel 21.6. Market Trends 21.7. Key Market Participants - Intensity Mapping 21.8. Drivers and Restraints - Impact Analysis 22. Middle East and Africa Market Analysis 2018 to 2022 and Forecast 2023 to 2033 22.1. Introduction 22.2. Pricing Analysis 22.3. Historical Market Size (US$ million) and Volume Trend Analysis By Market Taxonomy, 2018 to 2022 22.4. Market Size (US$ million) and Volume Forecast By Market Taxonomy, 2023 to 2033 22.4.1. By Country 22.4.1.1. GCC Countries 22.4.1.2. Türkiye 22.4.1.3. Northern Africa 22.4.1.4. South Africa 22.4.1.5. Rest of Middle East and Africa 22.4.2. By Material 22.4.3. By Application 22.4.4. By Sales Channel 22.5. Market Attractiveness Analysis 22.5.1. By Country 22.5.2. By Material 22.5.3. By Application 22.5.4. By Sales Channel 22.6. Market Trends 22.7. Key Market Participants - Intensity Mapping 22.8. Drivers and Restraints - Impact Analysis 23. Country-wise Market Analysis 23.1. Introduction 23.1.1. Market Value Proportion Analysis, By Key Countries 23.1.2. Global Vs. Country Growth Comparison 23.2. United States Market Analysis 23.2.1. By Material 23.2.2. By Application 23.2.3. By Sales Channel 23.3. Canada Market Analysis 23.3.1. By Material 23.3.2. By Application 23.3.3. By Sales Channel 23.4. Mexico Market Analysis 23.4.1. By Material 23.4.2. By Application 23.4.3. By Sales Channel 23.5. Brazil Market Analysis 23.5.1. By Material 23.5.2. By Application 23.5.3. By Sales Channel 23.6. Argentina Market Analysis 23.6.1. By Material 23.6.2. By Application 23.6.3. By Sales Channel 23.7. Germany Market Analysis 23.7.1. By Material 23.7.2. By Application 23.7.3. By Sales Channel 23.8. Italy Market Analysis 23.8.1. By Material 23.8.2. By Application 23.8.3. By Sales Channel 23.9. France Market Analysis 23.9.1. By Material 23.9.2. By Application 23.9.3. By Sales Channel 23.10. United Kingdom Market Analysis 23.10.1. By Material 23.10.2. By Application 23.10.3. By Sales Channel 23.11. Spain Market Analysis 23.11.1. By Material 23.11.2. By Application 23.11.3. By Sales Channel 23.12. NORDICS Market Analysis 23.12.1. By Material 23.12.2. By Application 23.12.3. By Sales Channel 23.13. Poland Market Analysis 23.13.1. By Material 23.13.2. By Application 23.13.3. By Sales Channel 23.14. Hungary Market Analysis 23.14.1. By Material 23.14.2. By Application 23.14.3. By Sales Channel 23.15. Romania Market Analysis 23.15.1. By Material 23.15.2. By Application 23.15.3. By Sales Channel 23.16. Czech Republic Market Analysis 23.16.1. By Material 23.16.2. By Application 23.16.3. By Sales Channel 23.17. China Market Analysis 23.17.1. By Material 23.17.2. By Application 23.17.3. By Sales Channel 23.18. Japan Market Analysis 23.18.1. By Material 23.18.2. By Application 23.18.3. By Sales Channel 23.19. South Korea Market Analysis 23.19.1. By Material 23.19.2. By Application 23.19.3. By Sales Channel 23.20. India Market Analysis 23.20.1. By Material 23.20.2. By Application 23.20.3. By Sales Channel 23.21. Association of Southeast Asian Nations Market Analysis 23.21.1. By Material 23.21.2. By Application 23.21.3. By Sales Channel 23.22. Australia and New Zealand Market Analysis 23.22.1. By Material 23.22.2. By Application 23.22.3. By Sales Channel 23.23. Kingdom of Saudi Arabia Market Analysis 23.23.1. By Material 23.23.2. By Application 23.23.3. By Sales Channel 23.24. United Arab Emirates Market Analysis 23.24.1. By Material 23.24.2. By Application 23.24.3. By Sales Channel 23.25. Northern Africa Market Analysis 23.25.1. By Material 23.25.2. By Application 23.25.3. By Sales Channel 23.26. Türkiye Market Analysis 23.26.1. By Material 23.26.2. By Application 23.26.3. By Sales Channel 23.27. South Africa Market Analysis 23.27.1. By Material 23.27.2. By Application 23.27.3. By Sales Channel 23.28. Israel Market Analysis 23.28.1. By Material 23.28.2. By Application 23.28.3. By Sales Channel 24. Market Structure Analysis 24.1. Market Analysis by Tier of Companies 24.2. Market Concentration 24.3. Market Share Analysis of Top Players 24.4. Production Capacity Analysis 24.5. Market Presence Analysis 24.5.1. By Sales Channel Footprint of Players 24.5.2. By Regional Footprint of Players 24.5.3. By Channel Footprint of Players 25. Competition Analysis 25.1. Competition Dashboard 25.2. Competition Benchmarking 25.3. Competition Deep Dive 25.3.1. Robert Bosch GmbH 25.3.1.1. Overview 25.3.1.2. Product Portfolio 25.3.1.3. Profitability by Market Segments (Product/Channel/Region) 25.3.1.4. Sales Footprint 25.3.1.5. Strategy Overview 25.3.2. ZF Friedrichshafen AG 25.3.2.1. Overview 25.3.2.2. Product Portfolio 25.3.2.3. Profitability by Market Segments (Product/Channel/Region) 25.3.2.4. Sales Footprint 25.3.2.5. Strategy Overview 25.3.3. Valeo S.A 25.3.3.1. Overview 25.3.3.2. Product Portfolio 25.3.3.3. Profitability by Market Segments (Product/Channel/Region) 25.3.3.4. Sales Footprint 25.3.3.5. Strategy Overview 25.3.4. Delphi Automotive PLC 25.3.4.1. Overview 25.3.4.2. Product Portfolio 25.3.4.3. Profitability by Market Segments (Product/Channel/Region) 25.3.4.4. Sales Footprint 25.3.4.5. Strategy Overview 25.3.5. Federal-Mogul Co. 25.3.5.1. Overview 25.3.5.2. Product Portfolio 25.3.5.3. Profitability by Market Segments (Product/Channel/Region) 25.3.5.4. Sales Footprint 25.3.5.5. Strategy Overview 25.3.6. Nisshinbo Holdings Inc. 25.3.6.1. Overview 25.3.6.2. Product Portfolio 25.3.6.3. Profitability by Market Segments (Product/Channel/Region) 25.3.6.4. Sales Footprint 25.3.6.5. Strategy Overview 25.3.7. Brembo S.p.A. 25.3.7.1. Overview 25.3.7.2. Product Portfolio 25.3.7.3. Profitability by Market Segments (Product/Channel/Region) 25.3.7.4. Sales Footprint 25.3.7.5. Strategy Overview 25.3.8. Akebono Brake Industry Co., Ltd. 25.3.8.1. Overview 25.3.8.2. Product Portfolio 25.3.8.3. Profitability by Market Segments (Product/Channel/Region) 25.3.8.4. Sales Footprint 25.3.8.5. Strategy Overview 25.3.9. EBC Brakes 25.3.9.1. Overview 25.3.9.2. Product Portfolio 25.3.9.3. Profitability by Market Segments (Product/Channel/Region) 25.3.9.4. Sales Footprint 25.3.9.5. Strategy Overview 25.3.10. DSS Brakes 25.3.10.1. Overview 25.3.10.2. Product Portfolio 25.3.10.3. Profitability by Market Segments (Product/Channel/Region) 25.3.10.4. Sales Footprint 25.3.10.5. Strategy Overview 25.3.11. Miba AG 25.3.11.1. Overview 25.3.11.2. Product Portfolio 25.3.11.3. Profitability by Market Segments (Product/Channel/Region) 25.3.11.4. Sales Footprint 25.3.11.5. Strategy Overview 25.3.12. Sangsin Brake 25.3.12.1. Overview 25.3.12.2. Product Portfolio 25.3.12.3. Profitability by Market Segments (Product/Channel/Region) 25.3.12.4. Sales Footprint 25.3.12.5. Strategy Overview 25.3.13. Wolverine Korea 25.3.13.1. Overview 25.3.13.2. Product Portfolio 25.3.13.3. Profitability by Market Segments (Product/Channel/Region) 25.3.13.4. Sales Footprint 25.3.13.5. Strategy Overview 25.3.14. Trelleborg Group 25.3.14.1. Overview 25.3.14.2. Product Portfolio 25.3.14.3. Profitability by Market Segments (Product/Channel/Region) 25.3.14.4. Sales Footprint 25.3.14.5. Strategy Overview 25.3.15. Avery Dennison Corporation 25.3.15.1. Overview 25.3.15.2. Product Portfolio 25.3.15.3. Profitability by Market Segments (Product/Channel/Region) 25.3.15.4. Sales Footprint 25.3.15.5. Strategy Overview 25.3.16. Meneta 25.3.16.1. Overview 25.3.16.2. Product Portfolio 25.3.16.3. Profitability by Market Segments (Product/Channel/Region) 25.3.16.4. Sales Footprint 25.3.16.5. Strategy Overview 25.3.17. SDT Brakes 25.3.17.1. Overview 25.3.17.2. Product Portfolio 25.3.17.3. Profitability by Market Segments (Product/Channel/Region) 25.3.17.4. Sales Footprint 25.3.17.5. Strategy Overview 25.3.18. Nissin Kogyo Co. Ltd. 25.3.18.1. Overview 25.3.18.2. Product Portfolio 25.3.18.3. Profitability by Market Segments (Product/Channel/Region) 25.3.18.4. Sales Footprint 25.3.18.5. Strategy Overview 26. Assumptions and Acronyms Used 27. Research Methodology
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Automotive Brake Shims Market
