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3D 프린팅 하드웨어(2022-2032년) : 기술과 시장 전망

3D Printing Hardware 2022-2032: Technology and Market Outlook

리서치사 IDTechEx Ltd.
발행일 2021년 12월 상품 코드 1042631
페이지 정보 영문 183 Slides
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3D 프린팅 하드웨어(2022-2032년) : 기술과 시장 전망 3D Printing Hardware 2022-2032: Technology and Market Outlook
발행일 : 2021년 12월 페이지 정보 : 영문 183 Slides

본 상품은 영문 자료로 한글과 영문목차에 불일치하는 내용이 있을 경우 영문을 우선합니다. 정확한 검토를 위해 영문목차를 참고해주시기 바랍니다.

3D 프린팅 산업이 시작된 이후 30년 동안, 융합 필라멘트 제작에서 디지털 광 처리, 선택적 레이저 용해, 바인더 분사, 재료 분사, 시트 라미네이션, 그리고 그 사이의 모든 고유한 인쇄 기술에 이르기까지 수많은 인쇄 기술이 발명, 특허 및 상용화되었습니다. 새로운 기술이 등장할 때마다 적층 제조 시장은 새로운 애플리케이션, 최종 사용자 및 산업으로 확장될 수 있는 능력을 갖추고 있습니다. 이러한 관점에서, 3D 프린터는 최근 몇 년 동안 적층 제조 산업이 성장하기 위한 핵심 토대라고 할 수 있습니다. 따라서 적층 제조의 미래 발전과 전망을 이해하려면 3D 프린팅 기술과 하드웨어를 배우고 이해하는 것이 필수적입니다.

IDTechEx의 3D 프린팅 하드웨어(2022-2032년 보고서는 3D 프린팅 하드웨어 기술과 매출의 성장을 설명하고 분석하기 위해 설계되었습니다. 재료 제조업체, 프린터 제조업체, 서비스 공급업체, 최종 사용자 등 3D 인쇄 공급망 내의 모든 기업에 유용합니다.

목차

1. 주요요약

  • 1.1. 7가지 3D 프린팅 공정 유형
  • 1.2. 재료-공정 관계
  • 1.3. 3D 프린팅의 성장 동력과 제약
  • 1.4. COVID-19의 영향: 회사 관점 요약
  • 1.5. COVID-19가 2020년 매출에 미치는 영향
  • 1.6. 1/4분기 수익: 2019-2021년
  • 1.7. 2021년 3D 프린팅 투자 개요
  • 1.8. 기업 유형별 2021년 3D 프린팅 민간 자금 지원
  • 1.9. 회사별 하드웨어 시장 점유율
  • 1.10. 회사별 인쇄 공정 시장 점유율
  • 1.11. 3D 프린팅 하드웨어 지역별 매출
  • 1.12. 기술 세분화
  • 1.13. 기술 세분화
  • 1.14. 현재 기술 시장 점유율
  • 1.15. 기술별 3D 프린팅 하드웨어 시장
  • 1.16. 기술별 3D 프린팅 하드웨어 시장(2)
  • 1.17. 판매 유형별 3D 프린팅 하드웨어 시장
  • 1.18. 기술별 3D 프린팅 설치 기반
  • 1.19. 2032년 기술 시장 점유율
  • 1.20.결론
  • 1.21. 회사 프로필

2. 소개

3. 폴리머 프린팅 프로세서

4. 폴리머 프린터: 벤치마킹

5. 메탈 프린팅 프로세서

6. 새로운 메탈 프린팅 프로세서

7. 메탈 프린터: 벤치마킹

8. 세라믹 프린팅 프로세스

9. 세라믹 프린터: 벤치마킹

10. 복합 프린팅 프로세스

11. 복합 압풀 프린터: 주요 모델

12. 새로운 프린터 프로세스

13. 시장 분석

14. 시장 전망

15. 결론

16. Appendix

17. 55개 IDTechEx 기업 프로필

JYH 22.01.13

Title:
3D Printing Hardware 2022-2032: Technology and Market Outlook
Granular market forecasts, interview-based company profiles, technology breakdowns and benchmarking studies, and market outlook.

"3D printing hardware will peak at $9.9 billion within the decade."

3D Printing Hardware: The Foundation of the Additive Manufacturing Industry

In the thirty years since the founding of the 3D printing industry, countless printing technologies have been invented, patented, and commercialized - from fused filament fabrication to digital light processing, selective laser melting to binder jetting, material jetting to sheet lamination, and every unique printing technology in between. With every new technology, the additive manufacturing market grows its ability to expand into new applications, end-users, and industries. From this perspective, 3D printers can be considered the core foundation underlying the additive manufacturing industry's growth in recent years. Therefore, to understand the future progress and outlook of additive manufacturing, it becomes essential to learn and understand 3D printing technologies and hardware.

IDTechEx's 3D Printing Hardware: 2022-2032 report is designed to explain and analyze the growth of 3D printing hardware technologies and sales; it is made to be useful for any company in the 3D printing supply chain: materials makers, printer manufacturers, service providers, end-users, and more. This report breaks down the market into 17 technology segments to create 17 COVID-19 adjusted forecast lines for each individual segment. The forecasts provide a ten-year outlook for 3D printer installation base, new installations, replacement unit sales, and revenue from 3D printer sales, all broken down into 17 forecast lines.

Technology Market Share in 2021 Categorized by Seventeen Technology Segments - Source IDTechEx

3D Printing Hardware Breakdowns: Technology Analyses and Impartial Technical Benchmarking

Within this report, IDTechEx individually analyzes over 30 printing technologies by their strengths, weaknesses, opportunities, and threats. In addition, information on hardware manufacturers, technology readiness levels, and key industries for each technology are provided to offer a full picture of each printing process from a technical and application perspective. These 30 printing technologies are categorized by four material classes, thus providing key technical insights into each additive manufacturing subspeciality: polymer, metal, ceramic, and composite.

Additionally, IDTechEx has conducted benchmarking studies within each material subspeciality to compare technologies by key parameters: build volume, build speed, resolution, price, and more. These comparisons were constructed through the extensive database of printer models and technical details collected by IDTechEx over the past seven years of 3D printing coverage. Through this impartial benchmarking, IDTechEx will highlight the advantages and disadvantages of each technology for its end-users.

Lastly, IDTechEx will present its research conducted over 2020 and 2021 to offer its perspective on the current status of the 3D printing hardware market. This includes identification of the key 3D printer manufacturers by revenue, rankings of the dominant technology segments by market share, and emerging technology highlights. To provide further context on the 3D printing hardware market, IDTechEx will extensively discuss the effects of the COVID-19 pandemic on the 3D printing market in 2020 and 2021, which was studied through many interviews with 3D printing companies and quantitative analysis of public revenue data. Through this analysis, readers will understand how much the pandemic adversely affected the additive manufacturing market and what the industry's recovery will look like in the next ten years.

Market Forecasts for 3D Printing Hardware

Using extensive primary and secondary research, IDTechEx has constructed a detailed 10-year market forecast for the 3D printing hardware market. These forecasts break the market down by install base, technology type, and unit sale type. This analysis reveals that 3D printing hardware will peak at a market size of $9.9 billion within the decade.

Supplementing the forecasts are full profile interviews of the major 3D printer manufacturers, which range from industry giants like Stratasys and 3D Systems to major disrupters like Markforged and Desktop to rising startups like Inkbit and 9T Labs. These profiles give insight into the companies leading the industry, their position amongst their competitors, and the opportunities and challenges they face in the future.

Key questions that are answered in this report:

  • What are the current and emerging printer technology types within different material specialties?
  • How do metrics such as price, build speed, build volume and precision vary by printer type and material class?
  • What are the strengths and weaknesses of different 3D printing technologies?
  • Which printers support different material classes?
  • What is the current installed base of 3D printers?
  • Who are the main players?
  • What are the market shares of those active in the market?
  • How will sales of different printer types evolve from 2022 to 2032?

Analyst access from IDTechEx

All report purchases include up to 30 minutes telephone time with an expert analyst who will help you link key findings in the report to the business issues you're addressing. This needs to be used within three months of purchasing the report.

TABLE OF CONTENTS

1. EXECUTIVE SUMMARY

  • 1.1. The Seven Different Types of 3D Printing Processes
  • 1.2. Material-Process Relationships
  • 1.3. Drivers and Restraints of Growth for 3D Printing
  • 1.4. Impact of COVID-19: Summary of Company Perspectives
  • 1.5. Impact of COVID-19 on Revenue in 2020
  • 1.6. Revenues for First 3 Quarters: 2019-2021
  • 1.7. 3D Printing Investment Overview for 2021
  • 1.8. 3D Printing Private Funding in 2021 by Company Type
  • 1.9. Hardware Market Share by Company
  • 1.10. Market Share for Printing Processes by Company
  • 1.11. 3D Printing Hardware Revenue by Region
  • 1.12. Technology Segmentation
  • 1.13. Technology Segmentation
  • 1.14. Current Technology Market Share
  • 1.15. 3D Printing Hardware Market by Technology
  • 1.16. 3D Printing Hardware Market by Technology (2)
  • 1.17. 3D Printing Hardware Market by Unit Sale Type
  • 1.18. 3D Printing Install Base by Technology
  • 1.19. Technology Market Share in 2032
  • 1.20. Conclusion
  • 1.21. Company Profiles

2. INTRODUCTION

  • 2.1. Glossary: common acronyms for reference
  • 2.2. Scope of Report
  • 2.3. The Seven Different Types of 3D Printing Processes
  • 2.4. Material-Process Relationships
  • 2.5. Why Adopt 3D Printing?
  • 2.6. History of 3D Printing: The Rise of The Hobbyist
  • 2.7. History of 3D Printing Metals
  • 2.8. History of Ceramic 3D Printing Companies
  • 2.9. Business Models: Securing Future Revenues
  • 2.10. Consumer vs Prosumer vs Professional
  • 2.11. Use Patterns and Market Segmentation
  • 2.12. The Desktop 3D Printer Explosion
  • 2.13. Drivers and Restraints of Growth for 3D Printing

3. POLYMER PRINTING PROCESSES

  • 3.1. Extrusion: Thermoplastic Filament
  • 3.2. Extrusion: Thermoplastic Pellet
  • 3.3. Powder Bed Fusion: Selective Laser Sintering (SLS)
  • 3.4. Powder Bed Fusion: Multi-Jet Fusion
  • 3.5. Vat Photopolymerisation: Stereolithography (SLA)
  • 3.6. Vat Photopolymerisation: Digital Light Processing (DLP)
  • 3.7. Material Jetting: Photopolymer

4. POLYMER PRINTERS: BENCHMARKING

  • 4.1. Polymer & Metal: Machine Prices by Printing Process
  • 4.2. Polymer & Metal: Build Volumes by Printing Process
  • 4.3. Polymer & Metal: Precision by Printing Process
  • 4.4. Polymer & Metal: Price vs Speed
  • 4.5. Polymer & Metal: Price vs Precision
  • 4.6. Polymer & Metal: Price vs Build Volume
  • 4.7. Polymer & Metal: Build Volume vs Speed

5. METAL PRINTING PROCESSES

  • 5.1. Powder Bed Fusion: Direct Metal Laser Sintering (DMLS)
  • 5.2. Powder Bed Fusion: Electron Beam Melting (EBM)
  • 5.3. Directed Energy Deposition: Blown Powder
  • 5.4. Directed Energy Deposition: Wire
  • 5.5. Binder Jetting: Metal Binder Jetting
  • 5.6. Binder Jetting: Sand Binder Jetting
  • 5.7. Sheet Lamination: Ultrasonic Additive Manufacturing (UAM)

6. NEW METAL PRINTING PROCESSES

  • 6.1. Emerging Metal Printing Processes - Overview
  • 6.2. Extrusion: Metal + Polymer Filament (MPFE)
  • 6.3. Vat Photopolymerisation: Digital Light Processing (DLP)
  • 6.4. Material Jetting: Nanoparticle Jetting (NJP)
  • 6.5. Extrusion: Magnetohydrodynamic Deposition
  • 6.6. Material Jetting: Electrochemical Deposition
  • 6.7. Material Jetting: Cold Spray

7. METAL PRINTERS: BENCHMARKING

  • 7.1. Metal: Price vs Precision
  • 7.2. Metal: Price vs Speed
  • 7.3. Metal: Price vs Build Volume
  • 7.4. Metal: Speed vs Build Volume
  • 7.5. Metal: Speed vs Precision
  • 7.6. Metal: Precision vs Volume

8. CERAMIC PRINTING PROCESSES

  • 8.1. 3D Printing Ceramics Technology Overview
  • 8.2. Extrusion: Paste
  • 8.3. Extrusion: Ceramic-Polymer Filament
  • 8.4. Extrusion: Ceramic-Polymer Pellet
  • 8.5. Vat Photopolymerisation: Stereolithography (SLA)
  • 8.6. Vat Photopolymerisation: Digital Light Processing (DLP)
  • 8.7. Material Jetting: Nanoparticle Jetting (NPJ)
  • 8.8. Binder Jetting: Ceramic Binder Jetting
  • 8.9. Why are there no commercial SLS ceramic printers?
  • 8.10. Why are there no commercial SLM ceramic printers?

9. CERAMIC PRINTERS: BENCHMARKING

  • 9.1. Ceramic: Build Volumes by Printer Manufacturer
  • 9.2. Ceramic: Minimum Z Resolution by Printer Manufacturer
  • 9.3. Ceramic Benchmarking: Z Resolution vs Build Volume
  • 9.4. Ceramic: Minimum XY Resolution by Printer Manufacturer
  • 9.5. Ceramic: Build Speed by Technology Type
  • 9.6. Ceramic Benchmarking: Build Volume vs Price
  • 9.7. Ceramic Benchmarking: Z Resolution vs Price
  • 9.8. Evaluation of Ceramic 3D Printing Technologies

10. COMPOSITE PRINTING PROCESSES

  • 10.1. Polymer Composites - Overview
  • 10.2. Chopped Fibre Thermoplastic Filament Extrusion
  • 10.3. Continuous Fibre Thermoplastic Filament Extrusion
  • 10.4. Continuous Fibre Thermoplastic Tape Extrusion
  • 10.5. Sheet Lamination
  • 10.6. Powder Bed Fusion: Selective Laser Sintering (SLS)
  • 10.7. Continuous Fibre Thermoset Extrusion

11. COMPOSITE EXTRUSION PRINTERS: KEY MODELS

  • 11.1. 5 Commercial Categories of Composite Extrusion Printers
  • 11.2. Key Thermoplastic Extrusion Composite Printers: Industrial with Short Fiber
  • 11.3. Key Thermoplastic Extrusion Composite printers: Desktop with Continuous Fiber
  • 11.4. Key Thermoplastic Extrusion Composite Printers: Industrial with Continuous Fiber
  • 11.5. Key Thermoplastic Extrusion Composite Printers: Large-Scale with Continuous Fibers

12. EMERGING PRINTER PROCESSES

  • 12.1. EU Roadmap for AM Development
  • 12.2. Supersonic Metal Powder Jetting
  • 12.3. Multiphoton Lithography
  • 12.4. LCD Stereolithography 3D Printing
  • 12.5. Hybrid Photosynthesis
  • 12.6. Hot Lithography
  • 12.7. High Speed Rotative AM
  • 12.8. NeuBeam
  • 12.9. Rise of Multi-material Printing
  • 12.10. Rise of Multi-Material Printing
  • 12.11. Multi-Material Jetting

13. MARKET ANALYSIS

  • 13.1. Impact of COVID-19: Summary of Company Perspectives
  • 13.2. Impact of COVID-19: Company Perspectives
  • 13.3. Impact of COVID-19: Company Perspectives
  • 13.4. Impact of COVID-19 on Revenue in 2020
  • 13.5. Quarterly Revenues - Legacy 3D Printer Manufacturers
  • 13.6. Quarterly Revenues - Binder Jetting
  • 13.7. Quarterly Revenues - Metal Powder Bed Fusion
  • 13.8. Quarterly Revenues - Prodways
  • 13.9. Quarterly Revenues - Service Providers
  • 13.10. Quarterly Revenues - Newly Public Companies
  • 13.11. Revenue Recovery from COVID-19 in 2020 and 2021
  • 13.12. Revenues for First 3 Quarters: 2019-2021
  • 13.13. COVID-19 and 3D Printing: Takeaways
  • 13.14. 3D Printing Investment Overview for 2021
  • 13.15. Notable Acquisitions in 2021
  • 13.16. Acquisition Spotlight: Desktop Metal
  • 13.17. Companies Going Public in 2021 by Company Type
  • 13.18. Printer Companies Going Public in 2021 by Material
  • 13.19. Companies Going Public in 2021: SPAC vs IPO
  • 13.20. Valuations vs Revenues at time of SPAC Merger
  • 13.21. Stock Performance - Markforged and Desktop Metal
  • 13.22. Companies Going Public in 2021 by Country
  • 13.23. Companies Going Public in 2021: Summary
  • 13.24. 3D Printing Private Funding in 2021 by Company Type
  • 13.25. 3D Printing Private Funding in 2021 by Region
  • 13.26. 3D Printing Private Funding in 2021 by Region
  • 13.27. Top 10 Fundraising Rounds in 2021
  • 13.28. 3D Printing Hardware Historic Revenue Growth
  • 13.29. Evolution of Market Shares for 7 Printing Processes
  • 13.30. Hardware Market Share by Company
  • 13.31. Market Share for Printing Processes by Company
  • 13.32. 3D Printing Hardware Revenue by Region
  • 13.33. Technology Segmentation
  • 13.34. Technology Segmentation
  • 13.35. Current Technology Market Share

14. MARKET FORECAST

  • 14.1. Forecast Methodology and Presentation of Findings
  • 14.2. 3D Printing Hardware Market Forecast
  • 14.3. 3D Printing Hardware Market by Technology
  • 14.4. 3D Printing Hardware Market by Technology (2)
  • 14.5. 3D Printing Hardware Market by Material Class
  • 14.6. 3D Printing Hardware Market by Unit Sale Type
  • 14.7. 3D Printing Hardware Unit Sales by Technology
  • 14.8. 3D Printing Install Base by Technology
  • 14.9. Technology Market Share in 2032

15. CONCLUSIONS

16. APPENDIX

  • 16.1. 3D Printing Hardware Market Forecast
  • 16.2. 3D Printing Hardware Market by Technology
  • 16.3. 3D Printing Hardware Market by Material Class
  • 16.4. 3D Printing Hardware Market by Unit Sale Type
  • 16.5. 3D Printing Hardware Unit Sales by Technology
  • 16.6. 3D Printing Install Base by Technology

17. ACCESS TO 55 IDTECHEX COMPANY PROFILES

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