Report Description Table of Contents Industry Report and Statistics (Facts & Figures) - Number of Printers Sold and Software Installed, ASP & Demand by Product & Technology The global aerospace 3D printing market will witness a robust CAGR of 20.23%, valued at $2.12 billion in 2022 and expected to grow and reach $10.76 billion by 2030, confirms Strategic Market Research. North America will continue to dominate the industry, accounting for 48.21% of global sales. 3D printing is an essential technology in the aerospace and defence industry known as additive manufacturing. The parts are designed on CAD software, and the model is printed layer-by-layer using a 3D printer. The primary benefit of using 3d printed components in the aerospace industry is to create complex feature components with high stability, which is difficult to achieve with traditional measures while keeping the performance intact. There are uses for aerospace 3D printing in aircraft and spacecraft to produce jet engine parts, wing brackets, fuel chambers, and interiors. It is also used to create models and create machining tools for manufacturing. Aerospace 3d printing is a cost-efficient method to produce parts in small quantities. With the growing demand for lightweight components, 3d printing offers the way for the growth of the aerospace industry. Moreover, according to GE, 3D-printed aircraft are 55% lighter than conventional aircraft and consume less fuel. Market Drivers - Decrease in the Production Rate of Aircraft Components, and the Rising Prevalence in the Usage of Lightweight Components Since 1977, the demand for aircraft has doubled every 15 years and is expected to keep increasing. 3D printing solves this ever-increasing demand for aircraft by replacing the traditional parts with 3d printed components. This cost-effective solution reduces weight and keeps the part’s performance intact. GE Aviation has reduced its weight by 25% and reduced assembly lines by readily subsuming 3D printing as a part of its process. Technological advances in 3d printing are expected to grow beyond $3 Billion this year in 2023 and will reach $6.75 Billion by 2026. Sustainable and Bio-social printed material will help achieve this goal; for example, Boeing has focused on sustainability and Green Aviation by reducing waste by 90% and incorporating sustainable 3d printing practices. Because of the increased aerospace & defence budget in the US(press release from Towerfast), big aerospace industry giants have increased their investment in AM technology to have a competitive edge and faster production of complex parts, and many small players are encouraged to mass production as this minimizes the number of suppliers and creates out-house jobs. Also, the military always looks for ways to reduce costs and maintain the part's performance. According to Boeing, they have reduced their production lead time of complex parts by 50% over the years, and increased automation with rapid prototyping has cut costs by 35-40%. A study on Airbus states that using 3D-printed parts for the A350 XWB aircraft has resulted in up to 45% weight reduction. 3D printed parts have better tolerances and performance fit when compared with conventional aircraft. According to 3D systems, 3d printing helps attain a resilient and flexible supply chain to avoid disruptions due to exogenous factors and maintain cost control methods. AM produces parts with complex constructions that are highly stable and have increased performance. All the above factors are expected to drive the market for Aerospace 3D printing market. Restraints - Lack of Adequate Labourers, Lower Rate of Travel by Passengers Due to the Pandemic Situation, etc The companies are experiencing massive disruptions in their production processes and a slump in the overall demand for aerospace 3D printing owing to the decrease in the rate of travel by passengers, lack of labourers, and customers postponing the delivery of new aircraft. The demand for spare parts of aircraft is also decreasing day by day. All of these factors are obstructing the overall aerospace 3D printing market growth extensively. Opportunities - Rising Prevalence of Advanced 3D Printing Technologies Green Aviation: According to Dassault Systems, reducing fuel consumption and CO2 emissions and producing lighter aircraft is the new demand of the market with low cost-to-product life. This is achieved by 3D printing, which reduces waste by 90% and creates optimized parts that further improve overall performance. Maintenance, Repair, and Overhaul (MRO) : iBASEt says 3d printing of the parts for the aerospace industry, which has rapid prototyping solutions, could be helpful due to the flexibility of producing the parts quickly with minimal operational cost and easily improvable design. Integrating cloud-based 3d printing (as 3DPaaS) could provide on-site solutions for the aerospace industry serving as an opportunity for the industry. Market Analysis Of Different Segments Covered in the Report Based on Offerings Printers Materials Software Services Based on Technology Powder Bed Fusion Polymerization Fusion Deposition Modeling (FDM) Others Based on Platform UAVs Aircraft Spacecraft Based on End Product Structural Components Engine Components Others Based on Application Tooling Prototyping Functional Parts Regional Coverage Analysis North America U.S. Mexico Canada Rest of North America Europe Switzerland Russia France Germany U.K Finland Turkey Netherlands Belgium Spain Italy Rest of Europe Asia Pacific China India Indonesia South Korea Thailand Japan Singapore Malaysia Philippines Australia New Zealand Rest of APAC LAMEA Brazil Saudi Arabia Uruguay Argentina Rest of LAMEA Segments Analysis & Insights Based on Offerings, The industry dominates the Printers segment with approximately 42.26% of the market share. Reduced manufacturing cost, design flexibility, and quick delivery time to market drive this segment's overall growth. Boeing expects to save approximately $2-$3 million per plane using 3d printing, contributing to the development of the printing segment. Based on Technology, According to All3Dpro, Fusion Deposition Modelling (FDM) is a $2.5 billion segment. It has captured most of the market share with the mass production of complex structures with extremely high accuracy. The parts manufactured are stable and offer improved performance. The parts are customizable to different shapes, colors, sizes, and textures and are manufactured with minimal wastage. Based on Platform, Aircrafts have the highest market share, influenced by the increased demand for aircraft with lightweight components and cost-effective production of complex parts. The Chinese aviation industry has been revealed to produce aircraft on a large scale by 3d printing as rivets and welded parts are replaced by stable and integrated components with less assembly time. According to Boeing's Commercial Market Outlook 2021-2040, airlines will add approximately 43,610 new aircraft to their fleets by 2040. This drastic growth is expected to drive demand for aerospace 3D printing as manufacturers seek to meet demand while reducing costs and increasing efficiency. Based on the End Products, engine component segments acquires the lion’s share with a market share of $28.24 billion. This segment is dominated by 3D printing technology due to producing components with intricate features and reducing the number of members. According to GE, Morris technology reduced the number of engine nozzle parts from 20 to 1, increased overall efficiency with reduced weight, and kept the performance intact. Based on Applications, Prototyping has the broadest applications, but the functional part segment is expected to grow with the highest CAGR. According to HUBS, as rapid prototyping is increasing due to the adoption of 3D printers and with no assembly lines, the lead time is reduced drastically, reducing the dependence on suppliers. Manufacturing functional parts produces a regular feature with better tolerance and performance fits. Based on Region, Geographically, North America will continue to dominate the industry, accounting for 48.21% of global sales and a total CAGR of 18.73%. Leading aerospace companies like GE Aviation, NASA, Boeing, and Raytheon Technologies are investing in additive manufacturing technology to revolutionize 3D printing. GE aviation has an upcoming investment of $500 million in emerging technologies. Asia Pacific market is growing with an increasing CAGR over the period with leading countries like India and China; are investing in infrastructure, 3D printers and software solution. Global Aerospace 3D Printing Market Competitive Landscape Analysis A 360-degree competitive landscape analysis delineates the pivotal information regarding the key competitors prevailing in the global market environment. The comparison is entirely conducted based on a variety of market initiatives, investment in R&D, total revenue generation, market potential, company overview, company financials, company strengths and weaknesses, global presence, production sites and facilities, production capacities, etc. Stratasys Ltd. 3D Systems Corporation EOS GmbH Norsk Titanium AS Ultimaker B.V. EnvisionTEC GmbH Aerojet Rocketdyne Arcam AB The Exone Company Safran SA Aerospace 3D Printing Market Report Coverage Report Attribute Details Forecast Period 2022-2030 Market size value in 2022 $2.12 billion Revenue forecast in 2030 $10.76 billion Growth rate 20.23% Base year for estimation 2021 Historical data 2017-2021 Unit USD Billion, CAGR (2022 - 2030) Segmentation By Offerings, By Technology, By Platform, By End Product, By Application and By Region By Offering Printers, Materials, Software, Services By Technology Powder Bed Fusion, Polymerization By Platform UAVs,Aircraft,Spacecraft By End Product Structural Components, Engine Components, Others By Application Tooling,Prototyping,Functional Parts By Region U.S, Mexico, Canada and Rest of North America Country Scope U.S., Canada, France, Germany, U.K., China, Japan, India, South Korea, Mexico, Brazil, U.A.E. etc. Company Usability Profiles Stratasys Ltd, 3D Systems Corporation, EOS GmbH, Norsk Titanium AS, Ultimaker B.V, EnvisionTEC GmbH, Aerojet Rocketdyne, Arcam AB, The Exone Company, Safran SA Recent Developments On February 2023, Pentagon gave $1.5 million to New Frontier Aerospace (NFA) for a 3-D printed Hypersonic Engine known as the Mjolnir engine, whose high weight-to-thrust ratio makes it suitable for all hypersonic aircraft to planetary landers due to its carbon-free and flexibility in operation. On April 2023, 3D Systems successfully verified the properties of NASA's latest superalloy based on the laser powder bed, GRX-810. This is a potential game-changer for the aerospace industry, delivering an unmatched balance of durability, ductility, creep life, and heat resistance. 3D Systems is committed to pushing the boundaries of additive manufacturing and enabling the production of next-generation aerospace components. Frequently Asked Question About This Report How big is the aerospace 3d printing market? The global aerospace 3d printing market size was $1.76 billion in 2021 and is predicted to reach $9.23 billion by 2030 with a CAGR of 20.23%. What is the aerospace 3d printing market growth? The global aerospace 3d printing marke is expected to grow at a compound annual growth rate (CAGR) of 20.23%.from 2021 to 2030 to reach USD $9.23 billion by 2030. Who are the leading players of the Market? Some of the crucial players of the Global Aerospace 3D Printing Market are Stratasys Ltd., 3D Systems Corporation, EOS GmbH, Norsk Titanium AS, Ultimaker B.V, EnvisionTec GmbH, Aerojet Rocketdyne, Arcam AB, The Exone Company, and Safran SA. Which is the largest application segment of the Market? Based on Applications, the Functional Parts segment held the largest share of the market during the estimated period. Which are the most dominant and fastest regions of the Market? Based on Region, North America accounted for the largest share of around 45.72% of the entire market in 2020, along with a total CAGR of 18.73% during the forecasted period of 2020-2030. The USA is the world’s largest manufacturing hub of the aerospace industry. The Asia-Pacific region held the fastest rate of growth throughout the prevised period of 2020-2030. Sources https://www.sciencedirect.com/science/article/pii/S2214914723000557#bib44 https://www.ge.com/additive/additive-manufacturing/industries/aviation-aerospace https://www.vaughn.edu/blog/advancements-in-3d-printing-are-revolutionizing-the-aerospace-industry/ https://www.towerfast.com/press-room/how-3d-printing-is-changing-the-aerospace-industry https://www.airbus.com/en/newsroom/press-releases/2018-09-airbus-helicopters-to-start-large-scale-printing-of-a350-xwb https://leehamnews.com/2022/09/28/boeing-shows-off-new-additive-manufacturing-facility-a-key-to-future-aerospace/ https://www.3ds.com/make/solutions/industries/3d-printing-aerospace https://www.3ds.com/make/solutions/industries/3d-printing-aerospace https://www.ibaset.com/additive-manufacturing-the-future-of-mro-and-3d-printing/ https://www.ge.com/additive/additive-manufacturing/industries/aviation-aerospace https://manufactur3dmag.com/china-aircrafts-are-using-3d-printing-technology/ https://www.boeing.com/commercial/market/commercial-market-outlook/index.page https://www.3dsystems.com/press-releases/3d-systems-verifies-performance-nasas-new-super-alloy-grx-810-paving-way-advanced https://www.popularmechanics.com/technology/infrastructure/a43068207/what-we-know-about-pentagon-hypersonic-rocket-engine/ https://3dprint.com/298368/ge-to-invest-nearly-500m-in-us-manufacturing-including-3d-printing/ https://www.hubs.com/knowledge-base/aerospace-3d-printing-applications/ https://all3dp.com/1/types-of-3d-printers-3d-printing-technology/ 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 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 Global Market 4.2.1 Global market, 2021-2030 (USD Million) 4.3 Regional Business Analysis 4.3.1 by Region, 2021-2030 (USD Million) 4.4 By Offerings Business Analysis 4.4.1 By Offerings Type, 2021-2030 (USD Million) 4.5 By Technology Business Analysis 4.5.1 By Technology Type, 2021-2030 (USD Million) 4.6 By Platform Business Analysis 4.6.1 By Platform Type, 2021-2030 (USD Million) 4.7 By End Product Business Analysis 4.7.1 By End Product Type, 2021-2030 (USD Million) 4.8 Application Business Analysis 4.8.1 By Application, 2021-2030 (USD Million) 4.9 Value Chain Analysis 4.10 Market Variable Analysis 4.10.1 Market Drivers Analysis 4.10.2 Market Restraints Analysis 4.11 Business Environment Analysis Tool 4.11.1 PEST analysis 4.11.2 Porter’s analysis 4.12 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 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. Technology Analysis 5.11.1. Trends in Technology (2014-2020) 5.11.2. Trends in Technology (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 Aerospace 3D Printing Manufacturing Sites, Area Served, Product Type 6.3. Competitive Situation and Trends 6.4. Manufacturers Mergers & Acquisitions, Expansion Plans 7. Global Market: By Offerings Type Segment Analysis 7.1. Introduction 7.2. Sales Volume & Revenue Analysis (2021-2030) 7.3. Printers 7.3.1. Printers market, 2021-2030 (USD Million) 7.4. Services 7.4.1. Services market, 2021-2030 (USD Million) 7.5 Materials 7.5.1 Materials market, 2021-2030 (USD Million) 7.5 Software 7.5.1 Software market, 2021-2030 (USD Million) 8. Global Market: By Technology Segment Analysis 8.1. Introduction 8.2. Sales Volume & Revenue Analysis (2021-2030) 8.3. Powder Bed Fusion 8.3.1. Powder Bed Fusion market, 2021-2030 (USD Million) 8.4. Polymerization 8.4.1. Polymerization market, 2021-2030 (USD Million) 8.5 Fusion Deposition Modeling (FDM) 8.5.1 Fusion Deposition Modeling (FDM) market, 2021-2030 (USD Million) 8.6 Others 8.6.1 Others market, 2021-2030 (USD Million) 9. Global Market: By Platform Segment Analysis 9.1. Introduction 9.2. Sales Volume & Revenue Analysis (2021-2030) 9.3. UAVs 9.3.1. UAVs market, 2021-2030 (USD Million) 9.4. Aircraft 9.4.1. Aircraft market, 2021-2030 (USD Million) 9.5 Spacecraft 9.5.1 Spacecraft market, 2021-2030 (USD Million) 10. Global Market: By End Product Segment Analysis 10.1. Introduction 10.2. Sales Volume & Revenue Analysis (2021-2030) 10.3. Structural Components 10.3.1. Structural Components market, 2021-2030 (USD Million) 10.4. Engine Components 10.4.1. Engine Components market, 2021-2030 (USD Million) 10.5 Others 10.5.1 Others market, 2021-2030 (USD Million) 11. Global Market: By Application Segment Analysis 11.1. Introduction 11.2. Sales Volume & Revenue Analysis (2021-2030) 11.3. Tooling 11.3.1. Tooling market, 2021-2030 (USD Million) 11.4. Prototyping 11.4.1. Prototyping market, 2021-2030 (USD Million) 11.5 Functional Parts 11.5.1 Functional Parts market, 2021-2030 (USD Million) 12. Global Market: Regional Outlook 12.1 North America 12.1.1. North America By End Product Type, 2021-2030 (USD Million) 12.1.4. North America By Application, 2021-2030 (USD Million) 12.1.5. North America by Country, 2021-2030 (USD Million) 12.1.4.1. U.S. 12.1.4.1.1. U.S. By End Product Type, 2021-2030 (USD Million) 12.1.4.2. Canada 12.1.4.2.1. Canada By End Product Type, 2021-2030 (USD Million) 12.1.4.2.2. Canada By Region, 2021-2030 (USD Million) 12.1.4.2.3. Canada by Applications, 2021-2030 (USD Million) 12.2. Europe 12.2.1. Europe By End Product Type, 2021-2030 (USD Million) 12.2.2. Europe By Application, 2021-2030 (USD Million) 12.2.5. Europe by country, 2021-2030 (USD Million) 12.2.4.1 U.K. 12.2.4.1.1. U.K. By End Product Type, 2021-2030 (USD Million) 12.2.4.1.2. U.K. By Applications, 2021-2030 (USD Million) 12.2.4.1.3. U.K. by Region, 2021-2030 (USD Million) 12.2.4.2. Germany 12.2.4.2.1. Germany By End Product Type, 2021-2030 (USD Million) 12.2.4.2.2. Germany By Application, 2021-2030 (USD Million) 12.2.4.2.3. Germany by Region, 2021-2030 (USD Million) 12.2.4.3. France 12.2.4.3.1. France By End Product Type, 2021-2030 (USD Million) 12.2.4.3.2. France By Region, 2021-2030 (USD Million) 12.2.4.3.3. France by Application, 2021-2030 (USD Million) 12.2.4.4. Rest of Europe 12.2.4.4.1. Rest of Europe By End Product Type, 2021-2030 (USD Million) 12.2.4.4.2. Rest of Europe By Region, 2021-2030 (USD Million) 12.2.4.4.3. Rest of Europe by Application, 2021-2030 (USD Million) 12.3. Asia Pacific 12.3.1. Asia Pacific By End Product Type, 2021-2030 (USD Million) 12.3.2. Asia Pacific By Application, 2021-2030 (USD Million) 12.3.5. Asia Pacific by country, 2021-2030 (USD Million) 12.3.4.1. China 12.3.4.1.1. China By End Product Type, 2021-2030 (USD Million) 12.3.4.1.2. China By Region, 2021-2030 (USD Million) 12.3.4.1.3. China by Application, 2021-2030 (USD Million) 12.3.4.2. India 12.3.4.2.1. India By End Product Type, 2021-2030 (USD Million) 12.3.4.2.2. India By Region, 2021-2030 (USD Million) 12.3.4.2.3. India by Application, 2021-2030 (USD Million) 12.3.4.3. Japan 12.3.4.3.1. Japan By End Product Type, 2021-2030 (USD Million) 12.3.4.3.3. Japan by Application, 2021-2030 (USD Million) 12.3.4.4. South Korea 12.3.4.4.1. South Korea By End Product Type, 2021-2030 (USD Million) 12.3.4.4.3. South Korea by Application, 2021-2030 (USD Million) 12.3.4.5. Rest of ASIA PACIFIC 12.3.4.5.1. Rest of ASIA PACIFIC By End Product Type, 2021-2030 (USD Million) 12.3.4.5.3. Rest of ASIA PACIFIC by Application, 2021-2030 (USD Million) 12.4. Latin America 12.4.1. Latin America By End Product Type, 2021-2030 (USD Million) 12.4.3. Latin America by Application, 2021-2030 (USD Million) 12.4.4. Latin America by country, 2021-2030 (USD Million) 12.4.4.1. Brazil 12.4.4.1.1. Brazil By End Product Type, 2021-2030 (USD Million) 12.4.4.1.3. Brazil by Application, 2021-2030 (USD Million) 12.4.4.2. Mexico 12.4.4.2.1. Mexico By End Product Type, 2021-2030 (USD Million) 12.4.4.2.3. Mexico by Application, 2021-2030 (USD Million) 12.4.4.3. Rest of Latin America 12.4.4.3.1. Rest of the Latin By End Product Type, 2021-2030 (USD Million) 12.4.4.3.3. Rest of the Latin by Application, 2021-2030 (USD Million) 13. Competitive Landscape 13.1 Stratasys Ltd. 13.1.1. Company overview 13.1.2. Financial performance 13.1.3. Product Portfolio Analysis 13.1.4. Business Strategy & Recent Development 13.2. 3D Systems Corporation. 13.2.1. Company overview 13.2.2. Financial performance 13.2.3. Product Portfolio Analysis 13.2.4. Business Strategy & Recent Development 13.3. EOS GmbH. 13.3.1. Company overview 13.3.2. Financial performance 13.3.3. Product Portfolio Analysis 13.3.4. Business Strategy & Recent Development 13.4. Norsk Titanium AS. 13.4.1. Company overview 13.4.2. Financial performance 13.4.3. Product Portfolio Analysis 13.4.4. Business Strategy & Recent Development 13.5. Ultimaker B.V. 13.5.1. Company overview 13.5.2. Financial performance 13.5.3. Product Portfolio Analysis 13.5.4. Business Strategy & Recent Development 13.6. EnvisionTec GmbH. 13.6.1. Company overview 13.6.2. Financial performance 13.6.3. Product Portfolio Analysis 13.6.4. Business Strategy & Recent Development 13.7. Aerojet Rocketdyne. 13.7.1. Company overview 13.7.2. Financial performance 13.7.3. Product Portfolio Analysis 13.7.4. Business Strategy & Recent Development 13.8. Arcam AB. 13.8.1. Company overview 13.8.2. Financial performance 13.8.3. Product Portfolio Analysis 13.8.4. Business Strategy & Recent Development 13.9. The Exone Company. 13.9.1. Company overview 13.9.2. Financial performance 13.9.3. Product Portfolio Analysis 13.9.4. Business Strategy & Recent Development 13.10. Safran SA. 13.10.1. Company overview 13.10.2. Financial performance 13.10.3. Product Portfolio Analysis 13.10.4. Business Strategy & Recent Development List of Tables (56 Tables) TABLE 1. By Offerings Type, 2021-2030 (USD Million) TABLE 2. FOR Printers, BY REGION, 2021-2030 (USD Million) TABLE 3. FOR Services, BY REGION, 2021-2030 (USD Million) TABLE 4. FOR Materials, BY REGION, 2021-2030 (USD Million) TABLE 5. FOR Software, BY REGION, 2021-2030 (USD Million) TABLE 6. By Technology, 2021-2030 (USD Million) TABLE 7. FOR Powder Bed Fusion, BY REGION, 2021-2030 (USD Million) TABLE 8. FOR Polymerization, BY REGION, 2021-2030 (USD Million) TABLE 9. FOR Fusion Deposition Modeling (FDM), BY REGION, 2021-2030 (USD Million) TABLE 10. FOR Others, BY REGION, 2021-2030 (USD Million) TABLE 11. By Platform Type, 2021-2030 (USD Million) TABLE 12. FOR UAVs, BY REGION, 2021-2030 (USD Million) TABLE 13. FOR Aircraft, BY REGION, 2021-2030 (USD Million) TABLE 14. FOR Spacecraft, BY REGION, 2021-2030 (USD Million) TABLE 15. By End Product Type, 2021-2030 (USD Million) TABLE 16. FOR Structural Components, BY REGION, 2021-2030 (USD Million) TABLE 17. FOR Engine Components, BY REGION, 2021-2030 (USD Million) TABLE 18. FOR Others, BY REGION, 2021-2030 (USD Million) TABLE 19. BY APPLICATION, 2021-2030 (USD Million) TABLE 20. FOR Tooling, BY REGION, 2021-2030 (USD Million) TABLE 21. FOR Prototyping, BY REGION, 2021-2030 (USD Million) TABLE 22. FOR Functional Parts, BY REGION, 2021-2030 (USD Million) TABLE 23. BY REGION, 2021-2030 (USD Million) TABLE 24. NORTH AMERICA BY COUNTRY, 2021-2030 (USD Million) TABLE 25. NORTH AMERICA BY Applications, 2021-2030 (USD Million) TABLE 26. NORTH AMERICA By End Product Type, 2021-2030 (USD Million) TABLE 27. NORTH AMERICA BY APPLICATION, 2021-2030 (USD Million) TABLE 28. EUROPE BY COUNTRY, 2021-2030 (USD Million) TABLE 29. EUROPE By End Product Type, 2021-2030 (USD Million) TABLE 30. EUROPE BY APPLICATION, 2021-2030 (USD Million) TABLE 31. ASIA-PACIFIC BY COUNTRY, 2021-2030 (USD Million) TABLE 32. ASIA-PACIFIC By End Product Type, 2021-2030 (USD Million) TABLE 33. ASIA-PACIFIC BY APPLICATION, 2021-2030 (USD Million) TABLE 34. LAMEA BY COUNTRY, 2021-2030 (USD Million) TABLE 35. LAMEA By End Product Type, 2021-2030 (USD Million) TABLE 36. LAMEA BY APPLICATION, 2021-2030 (USD Million) TABLE 37. Stratasys Ltd: COMPANY SNAPSHOT TABLE 38. Stratasys Ltd: OPERATING SEGMENTS TABLE 39. 3D Systems Corporation: COMPANY SNAPSHOT TABLE 40. 3D Systems Corporation: OPERATING SEGMENTS TABLE 41. EOS GmbH: COMPANY SNAPSHOT TABLE 42. EOS GmbH: OPERATING SEGMENTS TABLE 43. Norsk Titanium AS: COMPANY SNAPSHOT TABLE 44. Norsk Titanium AS: OPERATING SEGMENTS TABLE 45. Ultimaker B.V: COMPANY SNAPSHOT TABLE 46. Ultimaker B.V: OPERATING SEGMENTS TABLE 47. EnvisionTec GmbH: COMPANY SNAPSHOT TABLE 48. EnvisionTec GmbH: OPERATING SEGMENTS TABLE 49. Aerojet Rocketdyne: COMPANY SNAPSHOT TABLE 50. Aerojet Rocketdyne: OPERATING SEGMENTS TABLE 51. Arcam AB: COMPANY SNAPSHOT TABLE 52. Arcam AB: OPERATING SEGMENTS TABLE 53. The Exone Company: COMPANY SNAPSHOT TABLE 54. The Exone Company: OPERATING SEGMENTS TABLE 55. Safran SA: COMPANY SNAPSHOT TABLE 56. Safran SA: OPERATING SEGMENTS List of Figures (26 Figures) Figure 1 Research Methodology Steps Figure 2 Research Design Figure 3 Breakdown of Primaries: Aerospace 3D Printing Market Figure 4 Research Methodology: Hypothesis Building Figure 5 Application-Based Estimation Figure 6 Top 10 Companies with Highest No. Of Patent in Last 9 Years Figure 7 No. Of Patents Granted Per Year, 2019–2020 Figure 8 Import Data By Country, 2016–2020 (USD Thousand) Figure 9 Export Data By Country, 2016–2020 (USD Thousand) Figure 10 Data Triangulation Methodology Figure 11 By Offerings, 2019 vs. 2025 (USD Million) Figure 12 By Technology, 2019 vs. 2025 (USD Million) Figure 13 By Platform, 2019 vs. 2025 (USD Million) Figure 14 By End Product, 2019 vs. 2025 (USD Million) Figure 15 By Application Type, 2019 vs. 2025 Figure 16 Geographical Snapshot of the Aerospace 3D Printing Market Figure 17 Printers to Witness Higher CAGR for Offerings Segment during Forecast Period. Figure 18 Fusion Deposition Modeling (FDM) to Witness Higher CAGR for Technology Type Segment during Forecast Period. Figure 19 Aircraft to Witness Higher CAGR in Aerospace 3D Printing Market for Platform Type Segment during Forecast Period. Figure 20 Engine Components to Witness Higher CAGR End Product Segment during Forecast Period. Figure 21 Functional Parts to Witness Higher CAGR Application Segment during Forecast Period. Figure 22 North America Accounted for the Largest Share of the By Regional Basis, in 2019 Figure 23 Aerospace 3D Printing Market: Drivers, Restraints, Opportunities, and Challenges Figure 24 North America: Snapshot Figure 25 Asia Pacific: Snapshot Figure 26 Vendor Dive: Evaluation Overview