セラミックス 3D プリンティング市場が2032年までに4億ドルに達する独自のニッチ市場に成長へ

セラミックス3D プリンティング 2022-2032年: 技術および市場に関する見通し

細分化された市場見通し、インタビューに基づく企業概要、技術と材料のベンチマーク評価、事例検証および市場展望


製品情報 概要 目次 価格 Related Content
セラミックスの 3D プリンティングは現在 3D プリンティング業界全体のニッチとして存在していますが、最近ではベンチャー企業からセラミックス・サプライヤーに至る多くの企業がこの分野に参入しています。このレポートは、セラミックスの 3D プリンティング技術と材料の実態を検証し、有力企業を特定し、興味深い用途を紹介し、またセラミックス 3D プリンティングに関する市場見通しを提供します。この小さいながらも成長しつつある特殊分野に参入することを検討している企業にとって、このレポートは不可欠のものとなります。
「セラミックス3D プリンティング 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
◆主要なセラミックス 3D プリンティング技術
o 液槽光重合法 - デジタル映像光学技術(DLP)、リソグラフィによるセラミックス製造、光造形法
o ナノ粒子噴射技術
o 粉末利用プロセス - 結合剤噴射、高速焼結
o 押出成形 - ペースト、ペレット、熱可塑性樹脂
◆市場におけるすべての産業用セラミックス 3D プリンティング材料 - 組成、特性およびフォーム別の分析
◆インタビューを含む企業概要
◆主要なセラミックス 3D プリンティング用途 - 医療、歯科、化学、インベストメント鋳造
◆セラミックスの 3D プリンティングの市場サイズ、市場展望、市場見通し
 
「セラミックス3D プリンティング 2022-2032年」は以下の情報を提供します
◆技術トレンドおよびメーカー分析
  • セラミックス・プリンティング・プロセスに関する詳細にわたるサマリー
  • 異なる技術および異なるメーカーごとのセラミックス 3D プリンターのベンチマーク比較検証
  • 異なるメーカー別の市場におけるセラミックス 3D プリンティング材料のベンチマーク比較検証
  • 組成別の 3D プリンテッド・セラミックスの材料特性のサマリー
  • 主要企業の一次インタビュー
◆市場見通しおよび分析:
  • プリンター・プロセス、材料組成、材料使用形態および収益源別の10年先の細分化された市場見通し
  • 既存の市場および新興市場の双方に対する応用事例の調査
 
Ceramic 3D printing is an emerging segment within the 3D printing industry that began its commercial journey in the past 10 years. Compared to polymer and metal 3D printing, ceramic 3D printing is young. However, increasing entrants into the field in the past few years, from major ceramics companies to small 3D printing start-ups, illustrate that interest in ceramic additive manufacturing is picking up.
 
In this technical report from IDTechEx, ceramic 3D printing is comprehensively analysed to provide the current status of and outlook for the industry. Based on numerous primary interviews and IDTechEx's historical data on additive manufacturing, the report provides extensive technology benchmarking, material summaries, major player overviews, and target applications for ceramic 3D printing.
 
 
Benchmarking ceramic printer technologies and materials
 
In the 3D printing industry, it isn't uncommon for the important details about new technologies to become overshadowed by hype and media attention. For ceramic 3D printing, this means headlines about how a new ceramic printer will "change the 3D printing industry" or "revolutionize" a given field like medicine. In this report, IDTechEx cuts through the marketing language to get to the heart of the technologies dominating the ceramic additive manufacturing market. Along with detailed overviews of each individual printing process, the major technologies are compared by several key parameters: build volume, build speed, material compatibility, resolution, and more. By providing impartial benchmarking of these technologies, IDTechEx will highlight the advantages and disadvantages of each process for their end-users.
 
 
Source IDTechEx
 
 
The ceramics available for 3D printing are key to expanding the potential applications and markets that ceramic 3D printing could establish itself in. While less expensive oxide ceramics (like zirconia and alumina) are currently the most popular ceramic 3D printing materials, non-oxide ceramics (like silicon carbide and silicon nitride) for high-performance and high-value applications are growing in popularity. In this report, the ceramics available for 3D printing are identified with their manufacturers and key materials properties after printing being comprehensively analysed. These materials are then benchmarked by their mechanical, thermal, and dielectric properties to compare their performance against each other and against ceramics manufactured traditionally. In addition, perspectives on new materials trends in ceramic 3D printing - from multi-material/hybrid 3D printing to ceramic matrix composite printing - are presented to give readers a future outlook on the ceramics for 3D printing market.
 
 
Key applications: where ceramic 3D printing is gaining market traction
 
Ceramic 3D printing has been used primarily for research & development and prototypes, but it is seeing increasing interest from sectors looking for ceramic tooling and small-batch parts. This includes high-value sectors such as investment casting for aerospace & defence, chemical engineering, and dentistry. While the latter sector has great potential there is no commercial usage as of yet, the former sectors are seeing increasing commercial uptake; they represent ceramic additive manufacturing's best opportunities for high-value industry penetration. That said, there is still room for growth in R&D-related sales, as there is a large number of international research institutes working on progressing ceramic 3D printing in interesting applications like energy storage, medical devices, and carbon capture.
 
 
Market forecasts for ceramic 3D printing
 
Using extensive primary and secondary research, IDTechEx has constructed a detailed 10-year market forecast for the ceramic 3D printing industry. These forecasts break the industry down by install base, technology type, materials usage, and materials composition. This analysis reveals the growth of ceramic 3D printing into its own niche within the broader 3D printing industry worth $400 million by 2032.
 
Supplementing the forecasts are full profile interviews of the major players in the ceramic 3D printing, which range from dedicated ceramic 3D printing companies to metal/polymer 3D printer manufacturers to ceramic material suppliers. 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?
  • How do metrics such as price, build speed, build volume and precision vary by printer type?
  • 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?
  • What are the market shares of those active in the market?
  • What are the key drivers and restraints of market growth?
  • Who are the main players?
  • How will sales of different printer types evolve from 2022 to 2032?
  • What are the main application areas and target sectors for ceramic 3D printing?
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詳細
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アイディーテックエックス株式会社 (IDTechEx日本法人)
担当: 村越美和子 m.murakoshi@idtechex.com
Table of Contents
1.EXECUTIVE SUMMARY AND CONCLUSIONS
1.1.What is Ceramic 3D Printing?
1.2.Traditional Ceramic Shaping Processes
1.3.Advantages and Disadvantages of Traditional Ceramic Forming Techniques
1.4.Rationale for Ceramic Additive Manufacturing
1.5.History of Ceramic 3D Printing Companies
1.6.3D Printing Ceramics Technology Overview
1.7.Evaluation of Ceramic 3D Printing Technologies
1.8.Classification: By Chemistry
1.9.Ceramic 3D Printing Materials on the Market
1.10.Target Sectors for 3D-Printed Ceramics
1.11.Overview of Medical Applications of 3D-Printed Bioceramics
1.12.3D-Printed Zirconia for Dental Applications
1.13.Ceramic 3D Printing for Investment Casting
1.14.Chemical Engineering Applications
1.15.Overview of Other Applications for 3D Printing Ceramics
1.16.Status and Market Potential for Different Sectors
1.17.3D Printing Ceramics Market Forecast
1.18.Market Forecast by Technology
1.19.Ceramic 3D Printer Install Base by Year
1.20.Materials Usage Forecast by Composition
1.21.Conclusions
1.22.Company Profiles
2.INTRODUCTION
2.1.Glossary: Common Acronyms For Reference
2.2.Traditional Ceramic Shaping Processes
2.3.Dry Pressing
2.4.Hot Pressing
2.5.Hot Isostatic Pressing
2.6.Slip Casting
2.7.Extrusion
2.8.Injection Molding
2.9.Advantages and Disadvantages of Traditional Ceramic Forming Techniques
2.10.What is Ceramic 3D Printing?
2.11.Rationale for Ceramic Additive Manufacturing
2.12.The Seven Different Types of 3D Printing Processes
2.13.Material-Process Relationships
2.14.Why Adopt 3D Printing?
2.15.Drivers and Restraints of Growth for 3D Printing
2.16.Total 3D Printing Market Forecast
2.17.Impact of COVID-19 on Stock Price
2.18.History of Ceramic 3D Printing Companies
2.19.Patents Granted for Ceramic 3D Printing
3.CERAMIC PRINTING PROCESSES
3.1.3D Printing Ceramics Technology Overview
3.2.Extrusion: Paste
3.3.Extrusion: Thermoplastic
3.4.Extrusion: Pellet
3.5.Vat Photopolymerisation: Stereolithography (SLA)
3.6.Vat photopolymerisation: Digital Light Processing (DLP)
3.7.Material Jetting: Nanoparticle Jetting (NPJ)
3.8.Binder Jetting
3.9.Why are there no commercial SLS ceramic printers?
3.10.Why are there no commercial SLM ceramic printers?
4.CERAMIC PRINTERS: BENCHMARKING
4.1.Largest Build Volumes by Printer Manufacturer
4.2.Minimum Z Resolution by Printer Manufacturer
4.3.Printer Benchmarking: Z Resolution vs Build Volume
4.4.Minimum XY Resolution by Printer Manufacturer
4.5.Build Speed by Technology Type
4.6.Multi-Material Ceramic Printers
4.7.Printer Benchmarking: Build Volume vs Price
4.8.Printer Benchmarking: Z Resolution vs Price
4.9.Evaluation of Ceramic 3D Printing Technologies
5.CERAMIC 3D PRINTING MATERIALS: BENCHMARKING
5.1.Scope of Ceramic 3D Printing Materials Coverage
5.2.Classification: By Feedstock Type
5.3.Classification: By Application
5.4.Classification: By Chemistry
5.5.Ceramic 3D Printing Materials on the Market
5.6.Mechanical Properties of 3DP Ceramic Materials
5.7.Thermal Properties of 3DP Ceramic Materials
5.8.Average Densities of 3DP Ceramic Materials
5.9.Flexural Strength vs Density for 3DP Ceramic Materials
5.10.Alumina Comparison - AM vs non-AM
5.11.Zirconia Comparison - AM vs non-AM
5.12.Silicon Carbide and Nitride Properties Comparison - AM vs non-AM
5.13.Ceramic-Matrix Composites (CMCs)
5.14.Ceramics as Reinforcements in 3D Printing
5.15.Manufacturers of Ceramic Materials for 3D Printing
6.CERAMIC 3D PRINTING MATERIALS: DATASHEETS
6.1.Alumina (Al2O3)
6.2.Zirconia (ZrO2)
6.3.Silica (SiO2)
6.4.Silicon Nitride (Si3N4 & β-SiAlON)
6.5.Silicon Carbide (SiC)
6.6.Aluminum Nitride (AlN)
6.7.Carbon
6.8.Hydroxyapatite (Ca10(PO4)6(OH)2)
6.9.Tricalcium Phosphate (β-Ca3(PO4)2)
6.10.Cordierite (Mg2Al4Si5O18)
7.MEDICAL APPLICATIONS: INTRODUCTION TO BIOCERAMICS
7.1.Biomaterials and Bioceramics Definitions
7.2.Clinical Uses of Bioceramics (non-AM)
7.3.Properties of Bioceramics vs Other Biomaterials
7.4.Advantages and Disadvantages of Bioceramics
7.5.Stress-Shielding
7.6.Inert Bioceramics
7.7.Hydroxyapatite
7.8.Porous Hydroxyapatite
7.9.Tricalcium Phosphate
7.10.Overview of Medical Applications of 3D-Printed Bioceramics
8.MEDICAL APPLICATIONS: BIOCERAMIC SCAFFOLDS FOR BONE TISSUE ENGINEERING
8.1.What is Tissue Engineering?
8.2.Autologous Bone Grafting
8.3.Tissue Engineering Scaffolds
8.4.Bioceramics for Bone Defect Repair
8.5.3D Printing of Bioceramic Scaffolds
8.6.Biological Benefits of 3D Printing Bioceramic Scaffolds for Bone Defects
8.7.Efficacy of 3D Printed Bioceramic Scaffolds
8.8.Disadvantages of 3D Printed Bioceramic Scaffolds
8.9.Outlook of 3D Printed Bioceramic Scaffolds
9.MEDICAL APPLICATIONS: CRANIO-MAXILLOFACIAL IMPLANTS
9.1.Cranio-Maxillofacial Surgery
9.2.Autologous Bone and Tissue Grafting for CMF Surgery
9.3.3D Printing Bioceramic CMF Implants
9.4.Craniofacial Implants
9.5.Clinical Study of 3DP Bioceramic Craniofacial Implants
9.6.Miniplates and Screws for Maxillary Stabilization
9.7.Jawbone Implants
9.8.3DP Bioceramic Implants Case Study: Cerhum
9.9.Outlook of 3D-Printed Bioceramic CMF Implants
10.MEDICAL APPLICATIONS: OTHER
10.1.3D-Printed Ceramic Medical Instruments and Tools
10.2.3D-Printed Ceramic Medical Devices
10.3.3D-Printed Ceramic Spinal Implants
10.4.Knee Implant Made Using 3D-Printed Ceramics
11.MEDICAL APPLICATIONS: SUMMARY
11.1.Overview of Medical Applications of 3D-Printed Bioceramics
11.2.Adoption status of 3D-printed ceramic medical implants and devices
11.3.Advantages and Disadvantages of 3D-Printed Bioceramics for Medical Applications
11.4.Regulatory Overview for 3D-Printed Medical Devices
11.5.FDA Medical Device Timelines
12.DENTAL APPLICATIONS
12.1.Digital Dentistry and 3D Printing
12.2.Motivation for Adoption
12.3.The Digital Dentistry Workflow
12.4.3D Printing Processes & Materials for Dental Applications
12.5.Ceramics for Dental Applications
12.6.Zirconia Shaping for Dental Applications
12.7.3D-Printed Zirconia for Dental Applications
12.8.3D-Printed Zirconia for Dental Applications
12.9.Partnerships for 3D-Printed Ceramics for Dentistry
12.10.Dental Tools Case Study: Dentsply Sirona
13.INVESTMENT CASTING APPLICATIONS
13.1.Investment Casting
13.2.Advantages and Disadvantages of Investment Casting
13.3.Ceramic 3D Printing for Investment Casting
13.4.Investment Casting Case Study: Aristo-Cast
13.5.Industries Using Investment Casting
13.6.Types of Investment Casting for Turbine Blades
13.7.Ceramics for Investment Casting of Turbine Blades
13.8.3D Printing Ceramic Cores for Turbine Blade Casting
13.9.3D Printing Ceramic Cores for Turbine Blade Casting
13.10.DDM Systems
13.11.Investment Casting Case Studies: DDM Systems
13.12.PERFECT-3D
14.CHEMICAL ENGINEERING APPLICATIONS
14.1.Chemical Engineering Applications
14.2.Catalyst Supports Case Study: Johnson-Matthey
14.3.Radiant Tube Inserts Case Study: Saint-Gobain
14.4.Need for Carbon Capture
14.5.Carbon Capture, Utilization, and Storage (CCUS)
14.6.Methods of CO2 Separation
14.7.Sorbent-Based CO2 Separation
14.8.3D-Printed Sorbents for Carbon Capture
14.9.Chemical Analysis Equipment
14.10.Atomic Vapor Deposition Equipment
14.11.Chemical Engineering Components
14.12.SGL Carbon
14.13.Chemical Engineering Applications
15.OTHER EMERGING APPLICATIONS
15.1.Overview of Other Applications for 3D Printing Ceramics
15.2.Electronics: Piezoelectric Devices
15.3.Electronics: Embedded Electronics
15.4.Energy Storage: Solid State Batteries
15.5.Energy Storage: Solid-Oxide Fuel Cells
15.6.Optics: Deformable Mirrors
15.7.Optics: Optical Substrates
15.8.Space Applications: Antennas
15.9.5G Communications: Antennas
15.10.Glass-Ceramics
15.11.Thermal Management Devices Case Study: Kyocera
16.ARTS AND DESIGN APPLICATIONS
16.1.Ceramic 3D Printing for Pottery
16.2.Ceramic 3D Printing for Jewelry
16.3.Emerging Objects
17.MARKET ANALYSIS
17.1.Status and Market Potential for Different Sectors
17.2.Market Share by Installed Ceramic 3D Printers
17.3.Companies Using Ceramic 3D Printers
17.4.Trend to Watch: Multi-Material/Hybrid Printers
17.5.Multi-Material Jetting (MMJ)
17.6.Upcoming Multi-Material Printers
18.MARKET FORECAST
18.1.3D Printing Ceramics Market Forecast
18.2.3D Printing Ceramics Market Forecast by Technology
18.3.Ceramic 3D Printer Sales by Year
18.4.Ceramic 3D Printer Install Base by Year
18.5.Ceramic 3D Printing Materials Usage Forecast
18.6.3D Printing Ceramics Usage Forecast by Composition
18.7.Ceramic 3D Printing Materials Revenue Forecast
18.8.Ceramic 3D Printing Forecast by Revenue Source
18.9.Conclusions
19.COMPANY PROFILES
19.1.23 Company Profiles from IDTechEx Portal (download links)
20.APPENDIX
20.1.3D Printing Ceramics Market Forecast
20.2.3D Printing Ceramics Market Forecast by Technology
20.3.Ceramic 3D Printer Sales by Year
20.4.Ceramic 3D Printer Install Base by Year
20.5.Ceramic 3D Printing Materials Usage Forecast
20.6.3D Printing Ceramics Usage Forecast by Composition
20.7.Ceramic 3D Printing Materials Revenue Forecast
20.8.Ceramic 3D Printing Forecast by Revenue Source
 

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レポート概要

スライド 233
フォーキャスト 2032
ISBN 9781913899677
 

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