付加製造技術の利用増加により2032年までに関連材料市場が295億ドルを超える見込み
3Dプリンティングの材料市場 2022-2032年
75通りの10年先見通し、ベンチマーク比較、有力企業概要。感光性樹脂、熱可塑性粉末、熱可塑性フィラメント、金属パウダー、金属ワイヤー、セラミック材料
製品情報
概要
目次
価格
Related Content
材料は積層造形において最大の収益機会を生むものですが、ポリマー、金属、セラミックなどの材料を理解することが不可欠です。このレポートは、確立された3Dプリンティング材料の動向を検証し、技術比較調査の結果を提示し、トレンドを分析し、さらに積層造形材料に関する詳細な市場見通しを提示しています。3D プリンティング材料に関連する企業に対し、このレポートは重要な知見と必須の知識を提供します。
「3Dプリンティングの材料市場 2022-2032年」が対象とする主なコンテンツ
(詳細は目次のページでご確認ください)
● 全体概要および結論
● 光硬化性樹脂
□ アプリケーションとサプライヤー(汎用、フレキシブル、エンジニアリング、キャスタブル、医療、押出成形)
● 熱可塑性フィラメント
□ アプリケーションとサプライヤー(汎用、エンジニアリング、強化、フレキシブル、高温、サポート)
● 熱可塑性粉末
□ アプリケーションとサプライヤー(ナイロン、エンジニアリング、フレキシブル、複合材料、高温)
● 3D プリンティング用の繊維強化ポリマーマトリックス複合材料
● ポリマー 3D プリンティング材料のベンチマーク比較検証
● 金属積層造形材料およびサプライヤー
□ チタニウム
□ ステンレス鋼
□ アルミニウム
□ 銅
□ 金
● 全工業用セラミック製 3D プリンティング材料(組成別、特性別、フォーム別分析)
● ニッチ材料
□ 建設材料
□ ガラス
□ 紙
● 企業プロファイル - 市場リーダーならびにスタートアップ企業(インタビューを含む)
● 主要3D プリンティング市場分析 - 有力企業の特定および最新情報、コロナ禍後の市場動向、3D プリンティング材料への投資状況
● 3D プリンティング用ポリマー材料、金属材料、セラミック材料の市場サイズ、市場概観、市場予測
「3Dプリンティングの材料市場 2022-2032年」は以下の情報を提供します
材料トレンドおよび有力企業分析:
- ポリマー 3D プリンティング材料の詳細分析と用途(3つの原料カテゴリーと17種の個別原料タイプ分類)
- 異なる樹脂タイプ、フィラメントタイプ、粉末タイプ、原料タイプのポリマー積層造形材料
- メーカー別金属 3D プリンティング材料の包括的サマリー
- メーカー別セラミックス 3D プリンティング材料のベンチマーク比較検証
- 組成別3D プリンテッド・セラミックスの材料特性サマリー
- 3D プリンティング材料の主要企業の一次インタビュー
市場見通しおよび分析:
- ポリマー、金属、セラミック、建設材料の75種の10年先市場見通し
Materials present the strongest revenue opportunity within additive manufacturing, but understanding the variety of polymer, metal, and ceramic materials within 3D printing is critical to capitalizing on this opportunity. This report examines the status of established 3D printing materials, presents technical comparison studies, analyzes trends, and provides detailed market forecasts for additive manufacturing materials. For companies involved in 3D printing materials, this report presents key insights and essential knowledge.
Polymer, metal, wax, sand, concrete - as the 3D printing technology landscape has grown in diversity and complexity, so has the variety of materials compatible with these many additive processes. Whereas 3D printing used to be synonymous with straightforward low-cost thermoplastics for less demanding applications like prototyping, it now sees more unique and high-performance materials enter the market annually, from metal-matrix composites to bioceramics, to recycled plastics. This portfolio of compatible materials continues to expand as end users demand higher quality products, greater choice and flexibility, and in the case of prototyping, materials that are more representative of the final product's appearance and behavior. Importantly, this wider materials portfolio comes alongside increased adoption of additive manufacturing, as important end-users begin to fully understand the value-add that 3D printing brings to their supply chain.
With users spanning valuable industry verticals like medicine, automotive, and aerospace, there is a continuing drive to expand the materials market for 3D printing. With every new material launch comes an additional application for 3D printing to explore. The growth potential for 3D printing materials differs significantly from printing equipment, as legacy printers which are still operational continue to consume materials. Therefore, this segment of the 3D printing value chain represents tremendous potential growth opportunity over the next decade: IDTechEx forecasts that the global market for 3D printing materials will be worth $29.5 billion in 2032.
Technology and Applications
The 3D Printing Materials Market 2022-2032 report is specially authored to provide detailed understanding into this market through 75 forecast lines. These forecast lines span polymer, metal, ceramic, and construction materials, with insight offered on mass demand and revenue generation over the coming decade for different material categories. This report covers the current status of the additive manufacturing materials market from the perspective of polymers, fiber reinforced composites, metals, ceramics, and construction, with detail about material uptake trends occurring in the industry.
IDTechEx 3D Printing Materials Market 2022-2032: Forecast Segmentation
- By material type: polymer, metal, ceramic, and construction
- By technology: 11 polymer, 10 metal, and 3 ceramic additive manufacturing technologies
- By polymer feedstock type: 6 photopolymer resin, 6 thermoplastic filament, and 5 thermoplastic powder categories
- By metal alloy composition: 9 metal alloy categories used in metal 3D printing
The 3D printing market encompasses an increasingly broad materials palette. This report takes an in-depth look into the established material classes of polymer, metal, and ceramic materials, including photopolymer resins, thermoplastic powders, thermoplastic filaments, metal powders, and ceramic materials. Extensive discussion on the properties, applications, and suppliers of these feedstock types is provided, culminating in seventy-five forecast lines across four main material types for the next decade. Material descriptions, printer compatibilities, strengths and weaknesses, manufacturers, and example applications are discussed for individual material categories in the main established material types.
IDTechex's segmentation of the diverse Additive Manufacturing materials market
In addition, IDTechEx have conducted benchmarking studies assessing thousands of commercial polymer materials for 3D printing to compare the performance of individual polymer material categories. These benchmarking studies cut through any marketing and provide accessible impartial categorization for the industry. IDTechEx's benchmarking studies allow for identification of the successes and gaps in the market, providing valuable business intelligence for companies looking to capitalize on the growing 3D printing materials industry. IDTechEx's detailed industry analysis will also provide further context to the notable amount of movement in this industry with acquisitions, capacity expansions, improved processes, and new materials as players introduce material portfolios bespoke for additive manufacturing. Lastly, niche materials like concrete, glass, and sand are introduced and evaluated to provide a full picture of the 3D printing materials market.
Market analysis and granular 10-year forecasts
This report forecasts the overall 3D printing materials market to 2032, with in depth discussion of currently commercialized and emerging materials. The current state of the materials market is analyzed, and long-range forecasts from 2022-2032 for forecast demand by mass and revenue per annum segmented by material class, compatible printer technology, and material type within its feedstock category are evaluated.
IDTechEx conducted exhaustive primary research with companies positioned throughout the entire 3D printing value chain for key insights into the trends impacting growth to 2032. IDTechEx analysts go far beyond what is publicly available by conducting an extensive number of primary interviews, providing the latest and most important information to the reader. Over 45 company profiles are included as part of this report; this includes key OEMs, disruptive start-ups, incumbent powder providers, and emerging material companies.
Key questions explored in this report:
- What are the current and emerging 3D printing materials in 2032?
- What are the strengths and weaknesses of different 3D printing materials?
- Which materials are supported by different printer technologies?
- How are polymer 3D printing material feedstocks further segmented?
- What are the potential applications of products made from 3D printing materials?
- What are the market shares of each material class?
- What are the key drivers and restraints of market growth?
- What is the projected demand by mass and annual revenue growth for materials from 2022 to 2032?
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詳細
この調査レポートに関してのご質問は、下記担当までご連絡ください。
アイディーテックエックス株式会社 (IDTechEx日本法人)
電話 03-3216-7209
担当: 村越美和子 m.murakoshi@idtechex.com
| 1. | EXECUTIVE SUMMARY |
| 1.1. | Material compatibility across 3D printing technologies |
| 1.2. | Scope of the 3D printing materials report |
| 1.3. | Breaking down polymer materials for 3D printing |
| 1.4. | Comparison of polymer feedstock for additive manufacturing |
| 1.5. | Introduction to composite material feedstock for 3D printing |
| 1.6. | Ceramic 3D printing materials on the market |
| 1.7. | What are the feedstock options for metal additive manufacturing? |
| 1.8. | 3D printing materials investments in 2021 by material type |
| 1.9. | IDTechEx segmentation of metal additive manufacturing technologies |
| 1.10. | IDTechEx segmentation of polymer additive manufacturing technologies |
| 1.11. | Current market share of 3D printing materials demand - revenue and mass |
| 1.12. | 3D printing materials forecast by material type - revenue and mass |
| 1.13. | 3D printing materials forecast by material type - discussion |
| 1.14. | Polymer AM materials forecast by feedstock - revenue and mass |
| 1.15. | Polymer additive manufacturing materials forecast by feedstock - discussion |
| 1.16. | Metal AM materials forecast by technology - revenue and mass |
| 1.17. | Metal additive manufacturing materials forecast by technology - discussion |
| 1.18. | Key trends for 3D printing materials |
| 1.19. | Conclusions |
| 1.20. | IDTechEx company profiles |
| 2. | INTRODUCTION |
| 2.1. | Glossary: common acronyms for reference |
| 2.2. | Scope of report |
| 2.3. | The 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. | Timeline of 3D printing metals |
| 2.8. | History of ceramic 3D printing companies |
| 2.9. | Business models: selling printers vs parts |
| 2.10. | Consumer vs prosumer vs professional |
| 2.11. | Use patterns and market segmentation |
| 2.12. | Drivers and restraints of growth for 3D printing |
| 3. | PHOTOPOLYMER RESINS |
| 3.1. | Introduction to photopolymer resins |
| 3.2. | Chemistry of photosensitive resins |
| 3.3. | Chemistry of photopolymer resins |
| 3.4. | Chemistry of photosensitive resins |
| 3.5. | Resins - advantages and disadvantages |
| 3.6. | General purpose resins - overview |
| 3.7. | General purpose resins - applications |
| 3.8. | Engineering resins - overview |
| 3.9. | Engineering resins - applications |
| 3.10. | Flexible resins - overview |
| 3.11. | Flexible resins - applications |
| 3.12. | Flexible resins - footwear |
| 3.13. | Castable resins - overview |
| 3.14. | Castable resins - applications |
| 3.15. | Healthcare resins - overview |
| 3.16. | Healthcare resins - applications |
| 3.17. | Extrusion resins - overview |
| 3.18. | Extrusion resins - applications |
| 3.19. | Viscous photosensitive resins |
| 3.20. | Photosensitive resin suppliers |
| 4. | THERMOPLASTIC POWDERS |
| 4.1. | Introduction to thermoplastic powders |
| 4.2. | Engineering (nylon) powder - overview |
| 4.3. | Engineering (nylon) powder - applications |
| 4.4. | Flexible powder - overview |
| 4.5. | Flexible powder - applications |
| 4.6. | Composite powder - overview |
| 4.7. | Composite powder - applications |
| 4.8. | High temperature powder - overview |
| 4.9. | High temperature powder - applications |
| 4.10. | Engineering (other) powder - overview |
| 4.11. | Engineering (other) powder - applications |
| 4.12. | Thermoplastic powders: post-processing |
| 4.13. | Thermoplastic powder suppliers |
| 5. | THERMOPLASTIC FILAMENTS |
| 5.1. | Introduction to thermoplastic filaments |
| 5.2. | General purpose filaments - overview |
| 5.3. | General purpose filaments - applications |
| 5.4. | Engineering filaments - overview |
| 5.5. | Engineering filaments - applications |
| 5.6. | Flexible filaments - overview |
| 5.7. | Flexible Filaments - Applications |
| 5.8. | Reinforced Filaments - Overview |
| 5.9. | Reinforced Filaments - Applications |
| 5.10. | High Temperature Filaments - Overview |
| 5.11. | High Temperature Filaments - Applications |
| 5.12. | Support Filaments - Overview |
| 5.13. | Breakaway vs soluble supports: SWOT analysis |
| 5.14. | High temp thermoplastic support materials |
| 5.15. | Fillers for thermoplastic filaments |
| 5.16. | Thermoplastic filament suppliers |
| 5.17. | Procurement of thermoplastic filaments |
| 6. | THERMOPLASTIC PELLETS |
| 6.1. | What is pellet 3D printing? |
| 6.2. | Filament extrusion vs pellet extrusion |
| 6.3. | Pellet 3D printing - advantages & disadvantages |
| 6.4. | Comparison with Other 3D Printing Technologies and Injection Molding |
| 6.5. | Pellet 3D printing technologies on the market |
| 6.6. | Trends within pellet 3D printing |
| 6.7. | Trends within pellet 3D printing |
| 6.8. | Target industries and applications |
| 6.9. | Example Use Cases of Pellet Extrusion |
| 6.10. | Collaborations for pellet 3D printing |
| 6.11. | Materials suppliers for pellet 3D printing |
| 6.12. | Growth in Pellet 3D Printing |
| 6.13. | Pellet 3D printing: SWOT analysis |
| 6.14. | Outlook for pellet 3D printing |
| 6.15. | Pellet 3D printing companies |
| 6.16. | Pellet 3D printing companies |
| 7. | FIBER-REINFORCED POLYMER COMPOSITES |
| 7.1. | Introduction to composite 3D printing |
| 7.2. | Material feedstock: introduction |
| 7.3. | Material assessment: matrix considerations |
| 7.4. | Material assessment: mechanical properties |
| 7.5. | Material assessment: price and performance benchmarking |
| 7.6. | Material assessment: price and performance benchmarking |
| 7.7. | Complete material list: short carbon fiber |
| 7.8. | Complete material list: short carbon fiber |
| 7.9. | Complete material list: short glass fiber |
| 7.10. | Complete material list: powder |
| 7.11. | Complete material list: continuous fiber |
| 7.12. | Benchmarking study by independent research institute |
| 7.13. | Key material news and developments |
| 7.14. | Recycled carbon fiber as feedstock material |
| 7.15. | Nanocarbon additive: property advantages |
| 7.16. | Nanocarbon additive: commercial activity |
| 8. | POLYMER MATERIALS BENCHMARKING |
| 8.1. | Polymer materials benchmarking: introduction |
| 8.2. | Resins: printing process comparison |
| 8.3. | Resins: printing process comparison |
| 8.4. | Filaments: composite vs polymer comparison |
| 8.5. | Filaments: comparison by filament type |
| 8.6. | Filaments: comparison by filament type |
| 8.7. | Filaments: comparison of unreinforced polymer filaments |
| 8.8. | Filaments: table of properties by filament type |
| 8.9. | Filaments: table of properties for unreinforced polymer filaments |
| 8.10. | Filaments: table of properties for unreinforced polymer filaments |
| 8.11. | Powders: comparison by powder type |
| 8.12. | Powders: comparison by powder type |
| 8.13. | Powders: table of properties by powder type |
| 8.14. | Powders: table of properties by composition |
| 8.15. | Polymer feedstock comparison |
| 8.16. | Conclusion |
| 9. | METAL POWDERS |
| 9.1. | Material feedstock options |
| 9.2. | Powder morphology specifications |
| 9.3. | Water or gas atomization |
| 9.4. | Plasma atomization |
| 9.5. | Electrochemical atomization |
| 9.6. | Powder morphology depends on atomization process |
| 9.7. | Powder morphology depends on atomization process |
| 9.8. | Supported materials |
| 9.9. | Suppliers of metal powders for AM |
| 9.10. | Suppliers of metal powders for AM |
| 9.11. | Titanium powder - overview |
| 9.12. | Titanium powder - main players |
| 9.13. | Titanium powder - main players |
| 9.14. | Key material start-ups for metal additive manufacturing |
| 9.15. | Recycled titanium feedstocks |
| 9.16. | Metal powder bed fusion post processing |
| 9.17. | Barriers and limitations to using metal powders |
| 10. | OTHER METAL FEEDSTOCKS |
| 10.1. | Metal wire feedstocks |
| 10.2. | Metal wire feedstocks |
| 10.3. | Metal + polymer filaments |
| 10.4. | Metal + polymer filaments |
| 10.5. | Metal + polymer filaments: BASF Ultrafuse |
| 10.6. | Metal + photopolymer resin |
| 11. | COMPATIBLE METAL ALLOYS |
| 11.1. | Alloys and material properties |
| 11.2. | Aluminum and alloys |
| 11.3. | Expanding the aluminum AM material portfolio |
| 11.4. | 3D printing with copper: huge potential with many challenges |
| 11.5. | Expanding the copper AM material portfolio |
| 11.6. | Current applications for copper 3D printing |
| 11.7. | Cobalt and alloys |
| 11.8. | Nickel alloy: Inconel 625 |
| 11.9. | Nickel alloy: Inconel 718 |
| 11.10. | Precious metals and alloys |
| 11.11. | Maraging steel 1.2709 |
| 11.12. | 15-5PH stainless steel |
| 11.13. | 17-4 PH stainless steel |
| 11.14. | 316L stainless steel |
| 11.15. | Titanium and alloys |
| 11.16. | AM of high entropy alloys |
| 11.17. | AM of amorphous alloys |
| 11.18. | Emerging aluminum alloys and MMCs |
| 11.19. | Multi-metal material solutions |
| 11.20. | Materials informatics for additive manufacturing materials |
| 11.21. | Materials informatics for additive manufacturing materials |
| 11.22. | New alloys for 3D printing |
| 11.23. | Tungsten powder and nanoparticles |
| 12. | CERAMICS |
| 12.1. | Introduction to ceramic 3D printing materials |
| 12.2. | Classification: by feedstock type |
| 12.3. | Classification: by application |
| 12.4. | Classification: by chemistry |
| 12.5. | Ceramic 3D printing materials on the market |
| 12.6. | Bioceramics |
| 12.7. | Mechanical properties of 3DP ceramic materials |
| 12.8. | Thermal properties of 3DP ceramic materials |
| 12.9. | Average densities of 3DP ceramic materials |
| 12.10. | Flexural strength vs density - 3DP ceramic materials |
| 12.11. | Alumina comparison - AM vs non AM |
| 12.12. | Zirconia comparison - AM vs non AM |
| 12.13. | Silicon carbide and nitride comparison |
| 12.14. | Ceramic-matrix composites (CMCs) |
| 12.15. | Ceramics as reinforcement in 3D printing |
| 12.16. | Manufacturers of ceramics for 3D printing |
| 13. | COMPATIBLE CERAMIC MATERIALS |
| 13.1. | Alumina (Al2O3) |
| 13.2. | Zirconia (ZrO2) |
| 13.3. | Silica (SiO2) |
| 13.4. | Silicon Nitride (Si3N4 & β-SiAlON) |
| 13.5. | Silicon Carbide (SiC) |
| 13.6. | Aluminum Nitride (AlN) |
| 13.7. | Carbon |
| 13.8. | Hydroxyapatite (Ca10(PO4)6(OH)2) |
| 13.9. | Tricalcium Phosphate (β-Ca3(PO4)2) |
| 13.10. | Cordierite (Mg2Al4Si5O18) |
| 14. | OTHER MATERIALS |
| 14.1. | Sand for binder jetting |
| 14.2. | Paper sheets: full colour models |
| 14.3. | Glass for 3D printing |
| 14.4. | 4D printing materials |
| 15. | CONSTRUCTION MATERIALS FOR 3D PRINTING |
| 15.1. | A Brief History of Concrete 3D Printing |
| 15.2. | The drivers behind 3D printed concrete |
| 15.3. | The drivers behind 3D printed concrete |
| 15.4. | Main categories of concrete AM technology |
| 15.5. | Cartesian ("gantry") extrusion |
| 15.6. | Cartesian ("gantry") extrusion |
| 15.7. | Robotic extrusion |
| 15.8. | Robotic extrusion |
| 15.9. | Binder jetting |
| 15.10. | Materials for concrete 3D printing |
| 15.11. | Notable concrete 3D printing projects |
| 15.12. | Barriers to adoption of concrete 3D printing |
| 15.13. | Outlook for concrete 3D printing |
| 15.14. | Concrete 3D printing companies |
| 15.15. | Clay 3D printing for construction |
| 15.16. | Thermoset 3D printing for construction |
| 16. | MARKET ANALYSIS |
| 16.1. | Overview - 2022 products and developments |
| 16.2. | Overview - 2022 products and developments - metal materials |
| 16.3. | Overview - 2022 products and developments - metal materials |
| 16.4. | Overview - 2022 products and developments - polymer materials |
| 16.5. | Overview - 2022 products and developments - polymer materials |
| 16.6. | 2022 products and developments - polymer materials |
| 16.7. | 2022 products and developments - polymer materials |
| 16.8. | Overview - partnerships announced in 2022 involving AM materials |
| 16.9. | Partnerships announced in 2022 involving AM Materials |
| 16.10. | Overview - funding for AM materials companies in 2022 |
| 16.11. | AM materials investment overview for 2021 |
| 16.12. | Metal AM Related Acquisitions in 2021 |
| 16.13. | Acquisition spotlight: desktop metal |
| 16.14. | Companies going public in 2021: summary |
| 16.15. | Companies going public in 2021 by type |
| 16.16. | Companies going public in 2021: SPAC vs IPO |
| 16.17. | Valuations vs revenue at time of SPAC merger |
| 16.18. | Stock performance: Markforged and Desktop Metal |
| 16.19. | AM materials funding in 2021 by company type |
| 16.20. | AM materials funding in 2021 by country |
| 16.21. | AM materials funding in 2021 by material type |
| 16.22. | Top 11 AM materials-related fundraising rounds in 2021 |
| 16.23. | Metal AM technology segmentation |
| 16.24. | Polymer AM technology segmentation |
| 16.25. | Current market share of materials demand - revenue and mass |
| 17. | MARKET FORECAST |
| 17.1. | Forecast methodology and presentation of findings |
| 17.2. | 3D printing materials forecast by material type - revenue and mass |
| 17.3. | 3D printing materials forecast by material type - revenue and mass |
| 17.4. | Polymer AM materials forecast by feedstock - revenue and mass |
| 17.5. | Polymer materials forecast by feedstock - discussion |
| 17.6. | Polymer AM materials forecast by technology - revenue and mass |
| 17.7. | Polymer materials forecast by technology - discussion |
| 17.8. | Photopolymer resins forecast by type - revenue and mass |
| 17.9. | Photopolymer resins forecast by type - discussion |
| 17.10. | Thermoplastic filaments forecast by type - revenue and mass |
| 17.11. | Thermoplastic filaments forecast by type - discussion |
| 17.12. | Thermoplastic powders forecast by type - revenue and mass |
| 17.13. | Thermoplastic powders forecast by type - discussion |
| 17.14. | Metal AM material forecast by technology - revenue and mass |
| 17.15. | Metal AM material forecast by technology - discussion |
| 17.16. | Metal AM material forecast by alloy - revenue and mass |
| 17.17. | Metal AM Material Forecast by Alloy - Discussion |
| 17.18. | Ceramic 3D printing materials usage forecast |
| 17.19. | 3D printing ceramics usage forecast by composition |
| 17.20. | Ceramic 3D printing materials revenue forecast |
| 18. | CONCLUSION |
| 18.1. | Key trends for 3D printing materials |
| 18.2. | Conclusions |
| 18.3. | 3D printing research at IDTechEx |
| 19. | COMPANY PROFILES |
| 19.1. | Company profiles |
| 20. | APPENDIX |
| 20.1. | 3D printing materials forecast by material type - revenue |
| 20.2. | 3D printing materials forecast by material type - mass |
| 20.3. | Polymer AM materials forecast by feedstock -mass |
| 20.4. | Polymer AM materials forecast by feedstock - revenue |
| 20.5. | Polymer AM materials forecast by technology -mass |
| 20.6. | Polymer AM materials forecast by technology - revenue |
| 20.7. | Photopolymer resins forecast by type - revenue |
| 20.8. | Photopolymer resins forecast by type - mass |
| 20.9. | Thermoplastic filaments forecast by type - revenue |
| 20.10. | Thermoplastic filaments forecast by type -mass |
| 20.11. | Thermoplastic powders forecast by type - revenue |
| 20.12. | Thermoplastic powders forecast by type - mass |
| 20.13. | Metal material forecast by technology - revenue |
| 20.14. | Metal material forecast by technology - mass |
| 20.15. | Metal material forecast by alloy - revenue |
| 20.16. | Metal material forecast by alloy - mass |
| 20.17. | Ceramic 3D printing materials usage forecast |
| 20.18. | 3D printing ceramics usage forecast by composition |
| 20.19. | Ceramic 3D printing materials revenue forecast |
価格および注文方法
3Dプリンティングの材料市場 2022-2032年
£€$¥元
電子版_PDF(ユーザー 1-5名)
£5,650.00
電子版_PDF(ユーザー 6-10名)
£8,050.00
電子版_PDFおよびハードコピー1部(ユーザー 1-5名)
£6,450.00
電子版_PDFおよびハードコピー1部(ユーザー 6-10名)
£8,850.00
電子版_PDF(ユーザー 1-5名)
€6,400.00
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レポート概要
| スライド | 321 |
|---|---|
| フォーキャスト | 2032 |
| ISBN | 9781915514042 |
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