Report Description Table of Contents Industry Report and Statistics (Facts & Figures) - Demand & Sales Analysis by Technology, Material & Vehicle Type The global automotive metal stamping market will witness a robust CAGR of 4.45%, valued at $89.67 billion in 2021, expected to appreciate and reach $132.64 billion by 2030, confirms Strategic Market Research. North America has the largest market size and is likely to increase by 3.9% over the projected period. Metal stamping is an industrial method used to form flat metal sheets. It is a cold forming process that utilizes stamping presses and dies to convert and transform sheet metal into various shapes and forms. In the automotive industry metal stamping is applied as it increases the usage of sheet metal in the manufacturing of automobile transmission components, chassis along with exterior and interior structural components. The flexibility and strength of the parts which are metal stamped facilitate the automotive producers to maintain the necessary standards of safety while reducing the consumer costs. The automobile manufacturers get huge benefit by using metal stamping for different parts like hub caps and fenders because dies can be reused again to create consistently shaped and sized parts that meets tight tolerances and specifications. It is a complicated procedure that can involve various metal forming processes, such as bending, punching, blanking, and piercing, etc. Metal-stamping has been used in various industries, with automotive, consumer electronics, industrial machinery, electrical, aerospace, and telecommunication applying it the most. According to the European Automobile Manufacturers’ Association, Automotive Metal-stamping helped manufacture 79.1 million motor vehicles in 2021, a 1.3% increase compared to 2020. In the 1880s, the metal-stamping process was further innovated when metal-stamping was used to produce parts for mass-produced bicycles. In the 1900s, after importing metal-stamped bicycle parts from Germany into the United States of America, American industrialists began adopting metal-stamping as a cheaper method to manufacture parts. In the 1910s, Henry Ford acknowledged the benefits of metal-stamping and started adopting the technology in the production of motor vehicles. Since the 1920s, metal-stamping has grown rapidly and is used in different industries, especially automobile production. Sheet metal-stamping dies are designed to lower total production costs while creating bulk sheet metal-stamping components, which most automobile companies require. This process also significantly reduces secondary expenses for operations such as plating and cleaning. This allows firms to acquire their components at a far lesser cost than conventional methods. Metal-stamping machines are considerably easier to operate, and it is simpler to use higher-end computer software that allows for faster output, better degrees of precision, and shorter turnaround times. With a high degree of automation capability, reputable and experienced sheet metal-stamping design manufacturers can make good use of their workforce. Key Industry Drivers - Rising Vehicle Production, Increased Adoption of Lightweight Materials The increase in vehicles manufactured worldwide to meet its growing demand has boosted automotive metal stamping market trends. Due to the COVID-19 pandemic, many owners had sold their vehicles, and manufacturing of newer vehicles reduced when the lockdown was effective. With the reopening of various economies after the COVID-19 pandemic, the demand for cars has increased while car manufacturers face a low inventory. To fulfill this demand for cars, more vehicles need to be manufactured, driving the growth of the market. According to the BEA (Bureau of Economic Analysis), around 14.47 million light vehicles were sold in the USA in 2020. In 2021, the number rose to 14.93 million light vehicles sold in the country, which is a 3.2% increase from the previous year. The increase in lightweight materials like aluminum adoption has fostered the market. Aluminum is corrosion resistant and has low density, making it ideal for the automotive and aeronautical manufacturing industries. With automobile manufacturers facing financial and environmental issues due to their manufacturing processes, they have shifted to lightweight metals to manufacture vehicles. Substituting steel components with aluminum alloy components reduces the car’s weight without reducing its size. According to the International Aluminum Institute, aluminum that replaces 2 lb. of steel saves 20 lb. of carbon dioxide over the vehicle’s lifetime. Another study showed that with every 10% reduction in the vehicle’s weight, there is an observed 6% to 8% decrease in fuel consumption. Restraints - Increased Usage of Composites for Different Automobile Parts The increased use of composites like plastics for different automotive parts can hinder the global automotive metal stamping market. To achieve lighter vehicles to adhere to fuel economy regulations, many automotive manufacturers switch to composites to reduce the vehicle’s weight. This might reduce the demand for metal-stamping. Opportunities - Increased Sales in Electric and Hybrid Vehicles With more countries acknowledging the effects of climate change, they formulate various regulations to keep the fuel economy in check. To conform to various governmental regulations regarding climate change, many automotive companies began manufacturing and selling electric and hybrid vehicles to meet the increasing demand for these vehicles. Since electric and hybrid vehicles require lightweight metals, the demand for automotive stamped metal increases, propelling the market’s growth. According to CEP Technologies Corp. which is a global stamping manufacturer in yonkers , N.Y. stated that it is witnessing a tremendous growth in their business from electrification of vehicles. The company also asserted that the rising need for electrical conductivity in terminals, battery contacts and PC boards are the niche product spaces that are registering growth. This will further increase the need for customized precision metal stamping. According to the SMMT (Society of Motor Manufacturers and Traders) UK, 45.5% of hybrid and electric passenger vehicles were registered in the country in 2021, a 60.2% increase from 28.4% registered in 2020. Moreover, the advent of larger metal-stamping operations, along with the internal-operations of the automakers, will highly reduce the total operating costs, and increase the rate of production of automobiles over the upcoming 5 to 6 years. Further, the worldwide governments are also investing a substantial amount of fund for the technological developments of metal-stamping in the automotive sector, thereby catering to an extensive opportunity for market growth in future. SMR’s research has reported that over the next few years, the cost of a single automotive metal-stamping process will be as low as USD 2500 or even less. Market Analysis Of Different Segments Covered in the Report Based on Technology Embossing Blanking Coining Bending Flanging Others Based on Material Steel Aluminum Copper Others Based on Application Cars Commercial Vehicles Recreational Vehicles Other Means of Transportation Based on Process Hot Stamping Roll Forming Metal Fabrication Automotive Sheet-metal forming Other Processes Regional Coverage Analysis North America United States of America Canada Europe Germany United Kingdom Italy France Rest of Europe APAC/Asia-Pacific China South Korea India Japan Rest of the APAC/Asia-Pacific region LAMEA Brazil Mexico South Africa United Arab Emirates Rest of the LAMEA region Segments Analysis & Insights By technology, Blanking Automotive Metal-stamping process led the market, accounting for more than 25% of the market share, and is likely to increase at a 4.63% CAGR during the forecast period. The increased demand in the automobile sector is likely to increase the market demand for these procedures. Recent technological advancements, like hydraulic and laser metal-stamping, are likely to cut production costs by reducing waste, hence driving market expansion. Because the procedure produces excellently polished surface finishes, acceptable tolerances, and removed draughts, coining technology will increase at a growth rate of more than 6.0% throughout the projection period. In terms of material, Aluminum led the market in 2018 and is likely to grow at a CAGR of 4.1% during the anticipated period, owing to its widespread use in car production. Aluminum is increasingly being used in commercial vehicles because it provides a quick, safe, environmentally friendly, and cost-effective option that improves performance, boosts fuel economy and reduces emissions while maintaining safety and durability. Aluminum is lighter and more malleable than other materials. Aluminum has Young’s modulus of 70 GPa, making it more suitable for automotive manufacturing than copper (130 GPa) and steel (200 GPa), which makes it most efficient in manufacturing various automobiles conform to fuel economy regulations. In terms of Application, Cars had the biggest market share in 2020 and is predicted to continue to lead and dominate the market during the forecast period. The market for motor vehicles is predicted to expand substantially as end-user demand rises. Due to the reopening of various economies, the demand for cars has increased, while the existing inventory of cars from various automotive manufacturers is very low. To meet this demand, Automotive Metal-stamping for cars is performed extensively, which drives the segment’s growth. According to Scotiabank, global car sales grew from 63.8 million in 2020 by approximately 4.5% to 66.7 million in 2021 and are expected to grow further due to increased demand. Global car sales are expected to reach pre-pandemic levels by 2023. Commercial vehicles segment is the fastest-growing automotive metal stamping market segment, with a CAGR of 3.2% during the forecast period, as they require the most stable and durable vehicle parts due to their many end-uses. The speed of growth in this segment can also be attributed to the growing end-user demand. Due to the reopening of various economies, the demand for commercial vehicles has increased, while the existing inventory of commercial vehicles of various automotive manufacturers is very low. According to a study, commercial vehicle sales grew from around 68,000 units sold in March 2021 by around 15% to around 78,000 units sold in March 2022. Various companies estimate their sales volume of commercial vehicles will reach pre-pandemic levels in the foreseeable future. In terms of process, Hot stamping had the largest market share in 2020 and is forecasted and projected to witness a growth of 4.2% during the said period. Hot stamping allows the manufacturer to press complicated pieces with excellent strength, allowing him to construct a shape in a single lightweight piece rather than needing to weld thicker, heavier sections together. The feasibility of the hot stamping process drove the market growth. Cold stamping is the fastest-growing market and is likely to increase at a CAGR of 5.2% over the forecast period since it is faster than hot stamping and enables cold stamping on a range of metals. North America has the largest market size and is likely to increase by 3.9% during the forecast period, owing to the region’s expanding automotive industry. Profitable economic development, large automobile sales, minimal budgetary restraints, increased conversion to fuel-efficient vehicles, and large government investments in the area, notably in the United States, are predicted to positively boost the expansion of the automotive metal stamping market. According to Statistics Canada, 1.6 million new motor vehicles were registered in Canada, increasing by 6.5% from 2020. The number of new registrations for zero-emission vehicles has hit an all-time new record, with 5.2% of the total motor vehicles registered being zero-emission vehicles. APAC/Asia-Pacific is likely to have the fastest growth rate of 7.1% throughout the projection period due to investments in car production in the area and the rising demand for automobiles. The increased focus on fuel-efficient vehicles due to various governmental regulations drives the demand. This propels the demand for automotive stamped metals used in the manufacturing of various fuel-efficient car parts. According to the Automobile Inspection & Registration Information Association Japan, the electric vehicle stock volume reached approximately 286.52 thousand cars, with the plug-in hybrid electric vehicle being the most common. The stock volume of the plug-in hybrid electric vehicle is around 151.24 thousand cars. Automotive Metal Stamping Market Report Coverage Report Attribute Details Forecast Period 2021 – 2030 Market size value in 2021 USD 89.67 billion Revenue forecast in 2030 USD 132.64 billion Growth rate CAGR of approximately 4.45% Base year for estimation 2021 Historical data 2017 – 2020 Unit USD Billion, CAGR (2021 – 2030) Segmentation By Technology, By Metal, By Vehicle, By Process, And By Region By Technology Embossing, Blanking, Coining, Bending, Flanging, and Others By Metal Steel, Aluminum, Titanium, Others By Vehicle Cars, Commercial Vehicles, Recreational Vehicles, Other Means of Transportation By Process Metal Fabrication, Sheet-metal forming, Hot Stamping, Roll Forming, and Others. By Region Asia Pacific, North America, Europe, LAMEA Country Scope United States of America, Germany, United Kingdom, Italy, France, Canada, China, India, Japan, South Korea, Brazil, South Africa, United Arab Emirates Company Usability Profiles D&H Industries Inc., Clow Stamping Company, Shiloh Industries Inc., Magna International Inc., PDQ Tool & Stamping Co., Kenmode Precision-Metal-stamping, Integrity Manufacturing, Martinrea International Inc., Acro Metal-stamping Co, Wisconsin Metal Parts, Inc., Manor- Tool & Manufacturing Company, American Industrial Company, etc. Automotive Metal Stamping Market Competitive Landscape Analysis The market is fragmented with several local competitors plying to obtain a significant market share. The leading market players are improving their market presence by introducing new innovative technologies and executing tactics to get a competitive advantage. D&H Industries Inc. Clow Stamping PDQ Tool, & Stamping. Shiloh Industries Inc. Integrity Manufacturing. Magna International Kenmode Precision-Metal-stamping Acro Metal-stamping Co. Manor Tool, & Manufacturing Wisconsin Metal Parts, Inc. Martinrea International Inc. American Industrial Comp. Recent Developments In April 2022, AMD/Autometal Direct launched its (73 to 87) inches longer Sqaure-Body Bed Floor sheet for the purpose of floor stamping of its cars. This brand-new floor sheet has auto-connect options which eradicates the requirement of the bed floor installations to its wider tubes, thereby saving ample time, & money. In October 2021, Shiloh Industries, Inc. announced the acquisition of two Benteler Automotive stamping plants. Shiloh believes this acquisition strengthens and expands its position as a global manufacturer of lightweight structural components for the automotive industry. In October 2021, Autoneum announced the addition of battery electromagnetic shields to its expertise in aluminum sheet making (EMS). Autoneum believes that its stamped aluminum components prevents and restricts electromagnetic interface into the electric vehicles and provides cost-efficient shielding of the batteries. In September 2021, Toyota Tsusho and Alter Trading’s joint venture Altech Recycling LLC began operations. Toyota Tsusho believes that Altech’s operations will enable it to strengthen its aluminum value chain while attempting to realise a circular economy and carbon neutrality in aluminum metal-stamping. In May 2021, Nissan introduced lightweight aluminum technology for the all-new Qashqai in Europe. Nissan believes the launch of lightweight aluminum technology will enable it to take the first step in making both its vehicles and manufacturing processes more sustainable. Frequently Asked Question About This Report How big is the automotive metal stamping market? The global automotive metal stamping market size was $89.67 billion in 2021 and is expected to reach a value of $132.64 billion by 2030. What is the automotive metal stamping market growth? The global automotive metal stamping market is expected to grow at a compound annual growth rate (CAGR) of 4.45% from 2021 to 2030 to reach USD 132.64 billion by 2030. What are the main metals used in automotive metal stamping? Aluminum, copper, and iron (as steel) are the main metals used in Automotive Metal-stamping. What is likely to be the market size by 2030? APAC/Asia-Pacific led the market, with a CAGR of around 7.1%. Which region has the largest share in the market? North America has the largest market share Sources https://www.iea.org/reports/global-ev-outlook-2021/trends-and-developments-in-electric-vehicle-markets https://www.scotiabank.com/content/dam/scotiabank/sub-brands/scotiabank-economics/english/documents/global-auto-report/GAR_2022-01-27.pdf https://www.rushlane.com/commercial-vehicle-sales-march-2022-tata-mahindra-12432051.html https://www.statcan.gc.ca/en/topics-start/automotive https://www.marklines.com/en/statistics/flash_sales/automotive-sales-in-usa-by-month-2020 https://link.springer.com/article/10.1007/s11837-012-0424-z https://ccfa.fr/wp-content/uploads/2021/02/analysis-and-statistics-2020.pdf 1. Introduction 1.1. Study Objective 1.2. Market Definition 1.3. Study Scope 1.3.1. Markets Covered 1.3.2. Geographic Scope 1.3.3. Years Considered 1.3.4. Stakeholders 2. Research Methodology 2.1. Data Procurement 2.2. Paid Database 2.2.1. Secondary Data 2.2.1.1. Key Secondary sources 2.2.2. Primary Data 2.2.2.1 Primary sources 2.2.2.2. Key industry insights 2.2.2.3. Primary interviews with experts 2.2.2.4. Key primary respondent list 2.3. Market Size Estimation 2.4. Bottom-Up and Top-Down Approaches 2.4.1. Bottom-Up Approach 2.4.1.1. Approach for arriving at market size by bottom-up analysis 2.4.2. Top-Down Approach 2.4.2.1. Approach for Capturing Market Size by Top-Down Analysis 2.5. Market Breakdown and Data Triangulation 2.6. Research Methodology 2.7. Risk Assessment 3. Executive Summary 3.1 Automotive Metal Stamping Market: Post-Covid-19 3.1.1 Actual Scenario 3.1.2 Pessimistic Scenario 3.1.3 Optimistic Scenario 3.1.4 Market Summary 4. Industry Outlook 4.1 Market Snapshot 4.2 Automotive Metal Stamping Market 4.2.1 market, 2021 – 2030 (USD Million) 4.3 Regional Business Analysis 4.3.1 market, by region, 2021 - 2030 (USD Million) 4.4 By Technology Business Analysis 4.4.1 market, By Technology, 2021 - 2030 (USD Million) 4.5 By Material Business Analysis 4.5.1 market, By Material, 2021 - 2030 (USD Million) 4.6 Application Business Analysis 4.6.1 market, By Application, 2021 - 2030 (USD Million) 4.7 Process Business Analysis 4.7.1 market, By Process, 2021 - 2030 (USD Million) 4.8 Value Chain Analysis 4.9 Market Variable Analysis 4.9.1 Market Drivers Analysis 4.9.2 Market Restraints Analysis 4.10 Business Environment Analysis Tool 4.10.1 market PEST analysis 4.10.2 market Porter’s analysis 4.11 Penetration & Growth Prospect Mapping 5. Market Dynamics 5.1. Introduction 5.2. Market Dynamics 5.2.1. Drivers 5.2.2. Restraints 5.2.3. Opportunities 5.2.4. Challenges 5.3. Impact of Covid-19 On Market 5.4. Value Chain Analysis 5.5. Ecosystem 5.6. Patent Analysis 5.7. Trade Analysis 5.8. Tariff Analysis 5.9. Case Study Analysis 5.10. Porter’s Five Forces Analysis 5.10.1 Threat of New Entrants 5.10.2 Threat of Substitutes 5.10.3 Bargaining Power of Buyers 5.10.4 Bargaining Power of Suppliers 5.10.5 Degree of Competition 5.11. Process Analysis 5.11.1. Trends in Process (2014-2020) 5.11.2. Trends in Process (2021-2028) 5.12. Pricing Analysis 5.12.1. Average Price Trend Analysis (By Region, By Country) 6. Competitive & Vendor Landscape 6.1. Company Market Share Analysis 6.2. Manufacturers Manufacturing Sites, Area Served, Technology 6.3. Market Competitive Situation and Trends 6.4. Manufacturers Mergers & Acquisitions, Expansion Plans 7. Market: By Technology Segment Analysis 7.1. Introduction 7.2. Sales Volume & Revenue Analysis (2021-2030) 7.3. Embossing 7.3.1. Embossing market, 2021 - 2030 (USD Million) 7.4. Blanking 7.4.1. Blanking market, 2021 - 2030 (USD Million) 7.5. Coining 7.5.1. Coining market, 2021 - 2030 (USD Million) 7.6. Bending 7.6.1. Bending market, 2021 - 2030 (USD Million) 7.7. Flanging 7.7.1. Flanging market, 2021 - 2030 (USD Million) 7.8. Others 7.8.1. Others market, 2021 - 2030 (USD Million) 8. Market: By Material Segment Analysis 8.1. Introduction 8.2. Sales Volume & Revenue Analysis (2021-2030) 8.3. Steel 8.3.1. Steel Market, 2021 - 2030 (USD Million) 8.4. Aluminum 8.4.1. Aluminum market, 2021 - 2030 (USD Million) 8.5. Copper 8.5.1. Copper market, 2021 - 2030 (USD Million) 8.6. Others 8.6.1. Others market, 2021 - 2030 (USD Million) 9. Market: By Application Segment Analysis 9.1. Introduction 9.2. Sales Volume & Revenue Analysis (2021-2030) 9.3. Cars 9.3.1. Cars market, 2021 - 2030 (USD Million) 9.4. Commercial Vehicles 9.4.1. Commercial Vehicles market, 2021 - 2030 (USD Million) 9.5. Recreational Vehicles 9.5.1. Recreational Vehicles market, 2021 - 2030 (USD Million) 9.6. Other Means of Transportation 9.6.1. Other Means of Transportation market, 2021 - 2030 (USD Million) 10. Market: By Process Segment Analysis 10.1. Introduction 10.2. Sales Volume & Revenue Analysis (2021-2030) 10.3. Hot Stamping 10.3.1. Hot Stamping market, 2021 - 2030 (USD Million) 10.4. Roll Forming 10.4.1. Roll Forming market, 2021 - 2030 (USD Million) 10.5. Metal Fabrication 10.5.1. Metal Fabrication Market, 2021 - 2030 (USD Million) 10.6. Automotive Sheet-metal forming 10.6.1. Automotive Sheet-metal forming Market, 2021 - 2030 (USD Million) 10.7. Other Processes 10.7.1. Other Processes market, 2021 - 2030 (USD Million) 11. Market: Regional Outlook 11.1 North America 11.1.1. North America market, By Technology, 2021 - 2030 (USD Million) 11.1.2. North America market, By Material, 2021 - 2030 (USD Million) 11.1.3. North America market, by Process, 2021 - 2030 (USD Million) 11.1.4. North America market, by Country, 2021 - 2030 (USD Million) 11.1.5. North America market, By Type, 2021 - 2030 (USD Million) 11.1.4.1. U.S. 11.1.4.1.1. U.S. market, By Technology, 2021 - 2030 (USD Million) 11.1.4.1.2. U.S. market, By Material, 2021 - 2030 (USD Million) 11.1.4.1.3. U.S. market, by Process, 2021 - 2030 (USD Million) 11.1.4.2. Canada 11.1.4.2.1. Canada market, By Technology, 2021 - 2030 (USD Million) 11.1.4.2.2. Canada market, By Material, 2021 - 2030 (USD Million) 11.1.4.2.3. Canada market, by Process, 2021 - 2030 (USD Million) 11.2. Europe 11.2.1. Europe market, By Technology, 2021 - 2030 (USD Million) 11.2.2. Europe market, By Material, 2021 - 2030 (USD Million) 11.2.3. Europe market, by Process, 2021 - 2030 (USD Million) 11.2.4. Europe market, by country, 2021 - 2030 (USD Million) 11.2.5. Europe market, By Type, 2021 - 2030 (USD Million) 11.2.4.1 U.K. 11.2.4.1.1. U.K. market, By Technology, 2021 - 2030 (USD Million) 11.2.4.1.2. U.K. market, By Material, 2021 - 2030 (USD Million) 11.2.4.1.3. U.K. market, by Process, 2021 - 2030 (USD Million) 11.2.4.2. Germany 11.2.4.2.1. Germany market, By Technology, 2021 - 2030 (USD Million) 11.2.4.2.2. Germany market, By Material, 2021 - 2030 (USD Million) 11.2.4.2.3. Germany market, by Process, 2021 - 2030 (USD Million) 11.2.4.3. France 11.2.4.3.1. France market, By Technology, 2021 - 2030 (USD Million) 11.2.4.3.2. France market, By Material, 2021 - 2030 (USD Million) 11.2.4.3.3. France market, by Process, 2021 - 2030 (USD Million) 11.2.4.4. Rest of Europe 11.2.4.4.1. Rest of Europe market, By Technology, 2021 - 2030 (USD Million) 11.2.4.4.2. Rest of Europe market, By Material, 2021 - 2030 (USD Million) 11.2.4.4.3. Rest of Europe market, by Process, 2021 - 2030 (USD Million) 11.3. Asia Pacific 11.3.1. Asia Pacific market, By Technology, 2021 - 2030 (USD Million) 11.3.2. Asia Pacific market, By Material, 2021 - 2030 (USD Million) 11.3.3. Asia Pacific market, by Process, 2021 - 2030 (USD Million) 11.3.4. Asia Pacific market, by country, 2021 - 2030 (USD Million) 11.3.5. Asia Pacific market, By Type, 2021 - 2030 (USD Million) 11.3.4.1. China 11.3.4.1.1. China market, By Technology, 2021 - 2030 (USD Million) 11.3.4.1.2. China market, By Material, 2021 - 2030 (USD Million) 11.3.4.1.3. China market, by Process, 2021 - 2030 (USD Million) 11.3.4.2. India 11.3.4.2.1. India market, By Technology, 2021 - 2030 (USD Million) 11.3.4.2.2. India market, By Material, 2021 - 2030 (USD Million) 11.3.4.2.3. India market, by Process, 2021 - 2030 (USD Million) 11.3.4.3. Japan 11.3.4.3.1. Japan market, By Technology, 2021 - 2030 (USD Million) 11.3.4.3.2. Japan market, By Material, 2021 - 2030 (USD Million) 11.3.4.3.3. Japan market, by Process, 2021 - 2030 (USD Million) 11.3.4.4. South Korea 11.3.4.4.1. South Korea market, By Technology, 2021 - 2030 (USD Million) 11.3.4.4.2. South Korea market, By Material, 2021 - 2030 (USD Million) 11.3.4.4.3. South Korea market, by Process, 2021 - 2030 (USD Million) 11.3.4.5. Rest of ASIA PACIFIC 11.3.4.5.1. Rest of ASIA PACIFIC market, By Technology, 2021 - 2030 (USD Million) 11.3.4.5.2. Rest of ASIA PACIFIC market, By Material, 2021 - 2030 (USD Million) 11.3.4.5.3. Rest of ASIA PACIFIC market, by Process, 2021 - 2030 (USD Million) 11.4. Latin America 11.4.1. Latin America market, By Technology, 2021 - 2030 (USD Million) 11.4.2. Latin America market, By Material, 2021 - 2030 (USD Million) 11.4.3. Latin America market, by Process, 2021 - 2030 (USD Million) 11.4.4. Latin America market, by country, 2021 - 2030 (USD Million) 11.4.5. Latin America market, By Type, 2021 - 2030 (USD Million) 11.4.4.1. Brazil 11.4.4.1.1. Brazil market, By Technology, 2021 - 2030 (USD Million) 11.4.4.1.2. Brazil market, By Material, 2021 - 2030 (USD Million) 11.4.4.1.3. Brazil market, by Process, 2021 - 2030 (USD Million) 11.4.4.2. Mexico 11.4.4.2.1. Mexico market, By Technology, 2021 - 2030 (USD Million) 11.4.4.2.2. Mexico market, By Material, 2021 - 2030 (USD Million) 11.4.4.2.3. Mexico market, by Process, 2021 - 2030 (USD Million) 11.4.4.3. Rest of Latin America 11.4.4.3.1. Rest of the Latin America market, By Technology, 2021 - 2030 (USD Million) 11.4.4.3.2. Rest of the Latin America market, By Material, 2021 - 2030 (USD Million) 11.4.4.3.3. Rest of the Latin America market, by Process, 2021 - 2030 (USD Million) 11.5. MEA 11.5.1. MEA market, By Technology, 2021 - 2030 (USD Million) 11.5.2. MEA market, By Material, 2021 - 2030 (USD Million) 11.5.3. MEA market, by Process, 2021 - 2030 (USD Million) 11.5.4. MEA market, by region, 2021 - 2030 (USD Million) 11.5.5. MEA market, By Type, 2021 - 2030 (USD Million) 12. Competitive Landscape 12.1 D&H Industries Inc 12.1.1. Company overview 12.1.2. Financial performance 12.1.3. Solutions Portfolio Analysis 12.1.4. Business Strategy & Recent Development 12.2. Clow Stamping 12.2.1. Company overview 12.2.2. Financial performance 12.2.3. Solutions Portfolio Analysis 12.2.4. Business Strategy & Recent Development 12.3. PDQ Tool, & Stamping 12.3.1. Company overview 12.3.2. Financial performance 12.3.3. Solutions Portfolio Analysis 12.3.4. Business Strategy & Recent Development 12.4. Shiloh Industries Inc 12.4.1. Company overview 12.4.2. Financial performance 12.4.3. Solutions Portfolio Analysis 12.4.4. Business Strategy & Recent Development 12.5. Integrity Manufacturing 12.5.1. Company overview 12.5.2. Financial performance 12.5.3. Solutions Portfolio Analysis 12.5.4. Business Strategy & Recent Development 12.6. Magna International 12.6.1. Company overview 12.6.2. Financial performance 12.6.3. Solutions Portfolio Analysis 12.6.4. Business Strategy & Recent Development 12.7. Kenmode Precision-Metal-stamping 12.7.1. Company overview 12.7.2. Financial performance 12.7.3. Solutions Portfolio Analysis 12.7.4. Business Strategy & Recent Development 12.8. Acro Metal-stamping Co 12.8.1. Company overview 12.8.2. Financial performance 12.8.3. Solutions Portfolio Analysis 12.8.4. Business Strategy & Recent Development 12.9. Manor Tool, & Manufacturing. 12.9.1. Company overview 12.9.2. Financial performance 12.9.3. Solutions Portfolio Analysis 12.9.4. Business Strategy & Recent Development 12.10. Wisconsin Metal Parts, Inc 12.10.1. Company overview 12.10.2. Financial performance 12.10.3. Solutions Portfolio Analysis 12.10.4. Business Strategy & Recent Development 12.11. Martinrea International Inc 12.11.1. Company overview 12.11.2. Financial performance 12.11.3. Solutions Portfolio Analysis 12.11.4. Business Strategy & Recent Development 12.12. American Industrial Comp. 12.12.1. Company overview 12.12.2. Financial performance 12.12.3. Solutions Portfolio Analysis 12.12.4. Business Strategy & Recent Development List of Tables (64 Tables) TABLE 1. MARKET, By Technology, 2021-2030 (USD Million) TABLE 2. MARKET FOR Embossing, BY REGION, 2021-2030 (USD Million) TABLE 3. MARKET FOR Blanking, BY REGION, 2021-2030 (USD Million) TABLE 4. MARKET FOR Coining, BY REGION, 2021-2030 (USD Million) TABLE 5. MARKET FOR Bending, BY REGION, 2021-2030 (USD Million) TABLE 6. MARKET FOR Flanging, BY REGION, 2021-2030 (USD Million) TABLE 7. MARKET FOR Others, BY REGION, 2021-2030 (USD Million) TABLE 8. MARKET, By Material, 2021-2030 (USD Million) TABLE 9. MARKET FOR Steel, BY REGION, 2021-2030 (USD Million) TABLE 10. MARKET FOR Aluminum, BY REGION, 2021-2030 (USD Million) TABLE 11. MARKET FOR Copper, BY REGION, 2021-2030 (USD Million) TABLE 12. MARKET FOR Others, BY REGION, 2021-2030 (USD Million) TABLE 13. MARKET, BY PROCESS, 2021-2030 (USD Million) TABLE 14. MARKET FOR Hot Stamping, BY REGION, 2021-2030 (USD Million) TABLE 15. MARKET FOR Roll Forming, BY REGION, 2021-2030 (USD Million) TABLE 16. MARKET FOR Metal Fabrication, BY REGION, 2021-2030 (USD Million) TABLE 17. MARKET FOR Automotive Sheet-metal forming, BY REGION, 2021-2030 (USD Million) TABLE 18. MARKET FOR Other Processes, BY REGION, 2021-2030 (USD Million) TABLE 19. MARKET, By Application, 2021-2030 (USD Million) TABLE 20. MARKET FOR Cars, BY REGION, 2021-2030 (USD Million) TABLE 21. MARKET FOR Commercial Vehicles, BY REGION, 2021-2030 (USD Million) TABLE 22. MARKET FOR Recreational Vehicles, BY REGION, 2021-2030 (USD Million) TABLE 23. MARKET FOR Other Means of Transportation, BY REGION, 2021-2030 (USD Million) TABLE 24. MARKET, BY REGION, 2021-2030 (USD Million) TABLE 25. NORTH AMERICA MARKET, BY COUNTRY, 2021-2030 (USD Million) TABLE 26. NORTH AMERICA MARKET, By Technology, 2021-2030 (USD Million) TABLE 27. NORTH AMERICA MARKET, By Material, 2021-2030 (USD Million) TABLE 28. NORTH AMERICA MARKET, BY PROCESS, 2021-2030 (USD Million) TABLE 29. EUROPE MARKET, BY COUNTRY, 2021-2030 (USD Million) TABLE 30. EUROPE MARKET, By Technology, 2021-2030 (USD Million) TABLE 31. EUROPE MARKET, By Material, 2021-2030 (USD Million) TABLE 32. EUROPE MARKET, BY PROCESS, 2021-2030 (USD Million) TABLE 33. ASIA-PACIFIC MARKET, BY COUNTRY, 2021-2030 (USD Million) TABLE 34. ASIA-PACIFIC MARKET, By Technology, 2021-2030 (USD Million) TABLE 35. ASIA-PACIFIC MARKET, By Material, 2021-2030 (USD Million) TABLE 36. ASIA-PACIFIC MARKET, BY PROCESS, 2021-2030 (USD Million) TABLE 37. LAMEA MARKET, BY COUNTRY, 2021-2030 (USD Million) TABLE 38. LAMEA MARKET, By Technology, 2021-2030 (USD Million) TABLE 39. LAMEA MARKET, By Application, 2021-2030 (USD Million) TABLE 40. LAMEA MARKET, BY PROCESS, 2021-2030 (USD Million) TABLE 41. D&H Industries Inc: COMPANY SNAPSHOT TABLE 42. D&H Industries Inc: OPERATING SEGMENTS TABLE 43. Clow Stamping: COMPANY SNAPSHOT TABLE 44. Clow Stamping: OPERATING SEGMENTS TABLE 45. PDQ Tool, & Stamping: COMPANY SNAPSHOT TABLE 46. PDQ Tool, & Stamping: OPERATING SEGMENTS TABLE 47. Shiloh Industries Inc: COMPANY SNAPSHOT TABLE 48. Shiloh Industries Inc: OPERATING SEGMENTS TABLE 49. Integrity Manufacturing: COMPANY SNAPSHOT TABLE 50. Integrity Manufacturing: OPERATING SEGMENTS TABLE 51. Magna International: COMPANY SNAPSHOT TABLE 52. Magna International: OPERATING SEGMENTS TABLE 53. Kenmode Precision-Metal-stamping: COMPANY SNAPSHOT TABLE 54. Kenmode Precision-Metal-stamping: OPERATING SEGMENTS TABLE 55. Acro Metal-stamping Co: COMPANY SNAPSHOT TABLE 56. Acro Metal-stamping Co: OPERATING SEGMENTS TABLE 57. Manor Tool, & Manufacturing: COMPANY SNAPSHOT TABLE 58. Manor Tool, & Manufacturing: OPERATING SEGMENTS TABLE 59. Wisconsin Metal Parts, Inc: COMPANY SNAPSHOT TABLE 60. Wisconsin Metal Parts, Inc: OPERATING SEGMENTS TABLE 61. Martinrea International Inc: COMPANY SNAPSHOT TABLE 62. Martinrea International Inc: OPERATING SEGMENTS TABLE 63. American Industrial Comp.: COMPANY SNAPSHOT TABLE 64. American Industrial Comp.: OPERATING SEGMENTS List of Figures (22 Figures) Figure 1 Market: Research Methodology Steps Figure 2 Research Design Figure 3 Breakdown of Primaries: Market Figure 4 Research Methodology: Hypothesis Building Figure 5 Market: Technology-Based Estimation Figure 6 Top 12 Companies with Highest No. Of Patent in Last 9 Years Figure 7 No. Of Patents Granted Per Year, 2019–2020 Figure 8 Import Data for Automotive Metal Stamping, By Country, 2016–2020 (USD Thousand) Figure 9 Export Data for Automotive Metal Stamping, By Country, 2016–2020 (USD Thousand) Figure 10 Data Triangulation Methodology Figure 11 Market, By Material, 2019 vs. 2025 (USD Million) Figure 12 Market Share, By Process, 2019 vs. 2025 (USD Million) Figure 13 Market Share, By Technology, 2019 vs. 2025 (USD Million) Figure 14 Market Share, By Application, 2019 vs. 2025 (USD Million) Figure 15 Geographical Snapshot of the Market Figure 16 Hot Stamping to Witness Higher CAGR in the Market for Process Segment during the Forecast Period. Figure 17 Cars to Witness Higher CAGR in Market for Application Driving during Forecast Period. Figure 17 Aluminum led to Witness Higher CAGR in the Market for Material Driving during the Forecast Period. Figure 17 Blanking Automotive to Witness Higher CAGR in Market for Technology Driving during Forecast Period. Figure 18 North America Accounted for the Largest Share of the Market, By Regional Basis, in 2019 Figure 19 Market: Drivers, Restraints, Opportunities, and Challenges Figure 20 North America: Market Snapshot Figure 21 Asia Pacific: Market Snapshot Figure 22 Vendor Dive: Evaluation Overview