歯科用3Dプリント市場：プリント技術タイプ別、応用分野別、プリント材料タイプ別、主要地域別：業界動向と世界の予測、2023年～2035年

世界の歯科用3Dプリントの市場規模は、世界的な歯科疾患の罹患率上昇と最新の3Dプリント技術の採用拡大により、2023年～2035年にかけて12.6%のCAGRで拡大すると予測されています。

当レポートでは、世界の歯科用3Dプリント市場について調査し、市場の概要とともに、プリント技術タイプ別、応用分野別、プリント材料タイプ別、主要地域別の動向、および市場に参入する企業のプロファイルなどを提供しています。

目次

第1章 序文

第2章 エグゼクティブサマリー

第3章 イントロダクション

• 章の概要
• 歯科用3Dプリントの概要
• 歯科用3Dプリント技術
• 歯科産業における3Dプリントの応用
• 歯科用3Dプリントに関連する利点と制限
• 将来の展望

第4章 市場情勢

• 章の概要
• 歯科用3Dプリンター：全体的な市場情勢
• 歯科用3Dプリンターメーカー：開発者の情勢

第5章 製品の競合分析

• 章の概要
• 仮定と主なパラメータ
• 調査手法
• 製品競争力分析：歯科用3Dプリンター

第6章 企業プロファイル

• 章の概要
• 3D Systems
• Asiga
• BEGO
• Carbon
• Digital Wax Systems（DWS）
• Formlabs
• Prodways
• Rapid Shape
• SprintRay
• Stratasys

第7章 パートナーシップとコラボレーション

• 章の概要
• パートナーシップモデル
• 歯科用3Dプリンティング：パートナーシップとコラボレーションのリスト

第8章 特許分析

第9章 ボーマンクロックの価格設定

第10章 市場予測と機会分析

• 章の概要
• 予測調査手法と主要な仮定
• 世界の歯科用3Dプリンティング市場、2023年～2035年

第11章 結びの言葉

第12章 エグゼクティブインサイト

第13章 付録1：表形式のデータ

第14章 付録2：会社および組織のリスト

LIST OF TABLES

• Table 4.1 Dental 3D Printers: Information on Type of Product Printed and Application Area
• Table 4.2 Dental 3D Printers: Information on Type of Printing Technology and Printing Process Used
• Table 4.3 Dental 3D Printers: Information on Type of Printing Material, Printer Wavelength and Connectivity
• Table 4.4 Dental 3D Printers: Information on Printing Speed, Layer Thickness of Printed Products, Printer Resolution and Printer Price
• Table 4.5 List of Dental 3D Printer Manufacturers
• Table 6.1 Leading Dental 3D Printer Manufacturers
• Table 6.2 3D Systems: Company Snapshot
• Table 6.3 3D Systems: Dental 3D Printer Portfolio
• Table 6.4 3D Systems: Recent Developments and Future Outlook
• Table 6.5 Asiga: Company Snapshot
• Table 6.6 Asiga: Dental 3D Printer Portfolio
• Table 6.7 Asiga: Recent Developments and Future Outlook
• Table 6.8 BEGO: Company Snapshot
• Table 6.9 BEGO: Dental 3D Printer Portfolio
• Table 6.10 BEGO: Recent Developments and Future Outlook
• Table 6.11 Carbon: Company Snapshot
• Table 6.12 Carbon: Dental 3D Printer Portfolio
• Table 6.13 Carbon: Recent Developments and Future Outlook
• Table 6.14 DWS: Company Snapshot
• Table 6.15 DWS: Dental 3D Printer Portfolio
• Table 6.16 DWS: Recent Developments and Future Outlook
• Table 6.17 Formlabs: Company Snapshot
• Table 6.18 Formlabs: Dental 3D Printer Portfolio
• Table 6.19 Formlabs: Recent Developments and Future Outlook
• Table 6.20 Prodways: Company Snapshot
• Table 6.21 Prodways: Dental 3D Printer Portfolio
• Table 6.22 Prodways: Recent Developments and Future Outlook
• Table 6.23 Rapid Shape: Company Snapshot
• Table 6.24 Rapid Shape: Dental 3D Printer Portfolio
• Table 6.25 Rapid Shape: Recent Developments and Future Outlook
• Table 6.26 SprintRay: Company Snapshot
• Table 6.27 SprintRay: Dental 3D Printer Portfolio
• Table 6.28 SprintRay: Recent Developments and Future Outlook
• Table 6.29 Stratasys: Company Snapshot
• Table 6.30 Stratasys: Dental 3D Printer Portfolio
• Table 6.31 Stratasys: Recent Developments and Future Outlook
• Table 7.1 Dental 3D Printer Manufacturers: List of Partnerships and Collaborations, 2018-2022
• Table 8.1 Patent Analysis: Top CPC Section
• Table 8.2 Patent Analysis: Top CPC Symbol
• Table 8.3 Patent Analysis: Top CPC Code
• Table 8.4 Patent Analysis: Summary of Benchmarking Analysis
• Table 8.5 Patent Analysis: Categorization based on Weighted Valuation Scores
• Table 8.6 Patent Portfolio: List of Leading Patents (by Highest Relative Valuation)
• Table 8.7 Patent Portfolio: List of Leading Patents (by Number of Citations)
• Table 13.1 Dental 3D Printers: Distribution Types of Products Printed
• Table 13.2 Dental 3D Printers: Distribution by Application Area
• Table 13.3 Dental 3D Printers: Distribution by Type of Printing Technology
• Table 13.4 Dental 3D Printers: Distribution by Type of Printing Process
• Table 13.5 Dental 3D Printers: Distribution by Type of Printing Material
• Table 13.6 Dental 3D Printers: Distribution by Printer Wavelength (nm)
• Table 13.7 Dental 3D Printers: Distribution by Type of Connectivity
• Table 13.8 Dental 3D Printers: Distribution by Printing Speed (mm/hour)
• Table 13.9 Dental 3D Printers: Distribution by Layer Thickness of Printed Products (µm)
• Table 13.10 Dental 3D Printers: Distribution by Printer Resolution (µm)
• Table 13.11 Dental 3D Printers: Distribution by Printer Price (USD)
• Table 13.12 Dental 3D Printer Manufacturers: Distribution by Year of Establishment
• Table 13.13 Dental 3D Printer Manufacturers: Distribution by Company Size
• Table 13.14 Dental 3D Printer Manufacturers: Distribution by Location of Headquarters (Region-wise)
• Table 13.15 Dental 3D Printer Manufacturers: Distribution by Location of Headquarters (Country-wise)
• Table 13.16 Dental 3D Printer Manufacturer: Distribution by Company Size and Location of Headquarters
• Table 13.17 Most Active Players: Distribution by Number of Dental 3D Printers
• Table 13.18 Partnerships and Collaborations: Cumulative Year-Wise Trend, 2018-2022
• Table 13.19 Partnerships and Collaborations: Distribution by Type of Partnership
• Table 13.20 Partnerships and Collaborations: Distribution by Year and Type of Partnership
• Table 13.21 Partnerships and Collaborations: Distribution by Type of Partnership, 2018-2020 and 2021-2022
• Table 13.22 Most Active Players: Distribution by Number of Partnerships
• Table 13.23 Partnerships and Collaborations: International and Local Agreements
• Table 13.24 Partnerships and Collaborations: Intercontinental and Intracontinental Agreements
• Table 13.25 Patent Analysis: Distribution by Type of Patent
• Table 13.26 Patent Analysis: Cumulative Distribution by Patent Publication Year, 2019-2022
• Table 13.27 Patent Analysis: Cumulative Distribution of Granted Patents by Publication Year, 2019-2022
• Table 13.28 Patent Analysis: Cumulative Distribution of Patents Applications by Publication Year, 2019-2022
• Table 13.29 Patent Analysis: Cumulative Distribution by Patent Application Year, 2019-2022
• Table 13.30 Patent Analysis: Year-wise Distribution of Granted Patents and Patent Applications, 2019-2022
• Table 13.31 Patent Analysis: Distribution by Geographical Location
• Table 13.32 Patent Analysis: Distribution by CPC Symbols
• Table 13.33 Patent Analysis: Distribution by Type of Applicant
• Table 13.34 Patent Analysis: Distribution by Patent Age
• Table 13.35 Leading Industry Players: Distribution by Number of Patents
• Table 13.36 Leading Non-Industry Players: Distribution by Number of Patents
• Table 13.37 Leading Individual Assignees: Distribution by Number of Patents
• Table 13.38 Patent Benchmarking: Distribution by Patent Characteristics (CPC Symbols)
• Table 13.39 Patent Valuation
• Table 13.40 Global Dental 3D Printing Market, Conservative, Base and Optimistic Scenarios, 2023-2035 (USD Billion)
• Table 13.41 Dental 3D Printing Market: Distribution by Type of Printing Technology, 2023 and 2035 (USD Billion)
• Table 13.42 Dental 3D Printing Market for VAT Polymerization Technology, Conservative, Base and Optimistic Scenarios, 2023-2035 (USD Billion)
• Table 13.43 Dental 3D Printing Market for Powder Bed Fusion Technology, Conservative, Base and Optimistic Scenarios, 2023-2035 (USD Billion)
• Table 13.44 Dental 3D Printing Market for Polyjet Technology, Conservative, Base and Optimistic Scenarios, 2023-2035 (USD Billion)
• Table 13.45 Dental 3D Printing Market for Metal Extrusion Technology, Conservative, Base

and Optimistic Scenarios, 2023-2035 (USD Billion)

• Table 13.46 Dental 3D Printing Market for Other Technologies, Conservative, Base and Optimistic Scenarios, 2023-2035 (USD Billion)
• Table 13.47 Dental 3D Printing Market: Distribution by Application Area, 2023 and 2035 (USD Billion)
• Table 13.48 Dental 3D Printing Market for Prosthodontics, Conservative, Base and Optimistic Scenarios, 2023-2035 (USD Billion)
• Table 13.49 Dental 3D Printing Market for Orthodontics, Conservative, Base and Optimistic Scenarios, 2023-2035 (USD Billion)
• Table 13.50 Dental 3D Printing Market for Dental Implants, Conservative, Base and Optimistic Scenarios, 2023-2035 (USD Billion)
• Table 13.51 Dental 3D Printing Market for Other Applications, Conservative, Base and Optimistic Scenarios, 2023-2035 (USD Billion)
• Table 13.52 Dental 3D Printing Market: Distribution by Type of Printing Material, 2023 and 2035 (USD Billion)
• Table 13.53 Dental 3D Printing Market for Resins, Conservative, Base and Optimistic Scenarios, 2023-2035 (USD Billion)
• Table 13.54 Dental 3D Printing Market for Plastics, Conservative, Base and Optimistic Scenarios, 2023-2035 (USD Billion)
• Table 13.55 Dental 3D Printing Market for Metals, Conservative, Base and Optimistic Scenarios, 2023-2035 (USD Billion)
• Table 13.56 Dental 3D Printing Market for Ceramics, Conservative, Base and Optimistic Scenarios, 2023-2035 (USD Billion)
• Table 13.57 Dental 3D Printing Market for Other Material, Conservative, Base and Optimistic Scenarios, 2023-2035 (USD Billion)
• Table 13.58 Dental 3D Printing Market: Distribution by Geography, 2023 and 2035 (USD Billion)
• Table 13.59 Dental 3D Printing Market in North America, Conservative, Base and Optimistic

Scenarios, 2023-2035 (USD Billion)

• Table 13.60 Dental 3D Printing Market in Europe, Conservative, Base and Optimistic

Scenarios, 2023-2035 (USD Billion)

• Table 13.61 Dental 3D Printing Market in Asia-Pacific, Conservative, Base and Optimistic

Scenarios, 2023-2035 (USD Billion)

• Table 13.62 Dental 3D Printing Market in Latin America, Conservative, Base and Optimistic

Scenarios, 2023-2035 (USD Billion)

• Table 13.63 Dental 3D Printing Market in Middle East and North Africa, Conservative, Base and Optimistic Scenarios, 2023-2035 (USD Billion)
• Table 13.64 Dental 3D Printing Market in Rest of the World, Conservative, Base and Optimistic Scenarios, 2023-2035 (USD Billion)

LIST OF FIGURES

• Figure 2.1 Executive Summary: Overall Market Landscape
• Figure 2.2 Executive Summary: Partnerships and Collaborations
• Figure 2.3 Executive Summary: Patent Analysis
• Figure 2.4 Executive Summary: Market Forecast and Opportunity Analysis
• Figure 3.1 Process of Dental 3D Printing
• Figure 3.2 Dental 3D Printing Technologies
• Figure 3.3 Applications of 3D Printing in Dental Industry
• Figure 3.4 Advantages of Dental 3D Printing
• Figure 4.1 Dental 3D Printers: Distribution Types of Products Printed
• Figure 4.2 Dental 3D Printers: Distribution by Application Area
• Figure 4.3 Dental 3D Printers: Distribution by Type of Printing Technology
• Figure 4.4 Dental 3D Printers: Distribution by Type of Printing Process
• Figure 4.5 Dental 3D Printers: Distribution by Type of Printing Material
• Figure 4.6 Dental 3D Printers: Distribution by Printer Wavelength (nm)
• Figure 4.7 Dental 3D Printers: Distribution by Type of Connectivity
• Figure 4.8 Dental 3D Printers: Distribution by Printing Speed (mm/hour)
• Figure 4.9 Dental 3D Printers: Distribution by Layer Thickness of Printed Products (µm)
• Figure 4.10 Dental 3D Printers: Distribution by Printer Resolution (µm)
• Figure 4.11 Dental 3D Printers: Distribution by Printer Price (USD)
• Figure 4.12 Dental 3D Printer Manufacturers: Distribution by Year of Establishment
• Figure 4.13 Dental 3D Printer Manufacturers: Distribution by Company Size
• Figure 4.14 Dental 3D Printer Manufacturers: Distribution by Location of Headquarters (Region-wise)
• Figure 4.15 Dental 3D Printer Manufacturers: Distribution by Location of Headquarters (Country-wise)
• Figure 4.16 Dental 3D Printer Manufacturers: Distribution by Company Size and Location of Headquarters
• Figure 4.17 Most Active Players: Distribution by Number of Dental 3D Printers
• Figure 5.1 Product Competitiveness Analysis: Dot-Plot Representation of Dental 3D Printers
• Figure 5.2 Product Competitiveness Analysis: Dot-Plot Representation of Top Dental 3D Printers
• Figure 7.1 Partnerships and Collaborations: Cumulative Year-Wise Trend, 2018-2022
• Figure 7.2 Partnerships and Collaborations: Distribution by Type of Partnership
• Figure 7.3 Partnerships and Collaborations: Distribution by Year and Type of Partnership
• Figure 7.4 Partnerships and Collaborations: Distribution by Type of Partnership, 2018-2020 and 2021-2022
• Figure 7.5 Most Active Players: Distribution by Number of Partnerships
• Figure 7.6 Partnerships and Collaborations: International and Local Agreements
• Figure 7.7 Partnerships and Collaborations: Intercontinental and Intracontinental Agreements
• Figure 8.1 Patent Analysis: Distribution by Type of Patent
• Figure 8.2 Patent Analysis: Cumulative Distribution by Patent Publication Year, 2019-2022
• Figure 8.3 Patent Analysis: Cumulative Distribution of Granted Patents by Publication Year, 2019-2022
• Figure 8.4 Patent Analysis: Cumulative Distribution of Patents Applications by Publication Year, 2019-2022
• Figure 8.5 Patent Analysis: Cumulative Distribution by Patent Application Year, 2019-2022
• Figure 8.6 Patent Analysis: Year-wise Distribution of Granted Patents and Patent Applications, 2019-2022
• Figure 8.7 Patent Analysis: Distribution by Geographical Location
• Figure 8.8 Patent Analysis: Distribution by CPC Symbols
• Figure 8.9 Patent Analysis: Distribution by Type of Applicant
• Figure 8.10 Patent Analysis: Distribution by Patent Age
• Figure 8.11 Leading Industry Players: Distribution by Number of Patents
• Figure 8.12 Leading Non-Industry Players: Distribution by Number of Patents
• Figure 8.13 Leading Individual Assignees: Distribution by Number of Patents
• Figure 8.14 Patent Benchmarking Analysis: Distribution by Patent Characteristics (CPC Symbols)
• Figure 8.15 Patent Valuation
• Figure 9.1 Dental 3D Printers: Bowman Clock Pricing Strategy Matrix
• Figure 9.2 Dental 3D Printers: Bowman Clock Pricing Strategy Graphical Interpretation
• Figure 10.1 Global Dental 3D Printing Market, 2023-2035 (USD Billion)
• Figure 10.2 Dental 3D Printing Market: Distribution by Type of Printing Technology, 2023 and 2035 (USD Billion)
• Figure 10.3 Dental 3D Printing Market for VAT Polymerization Technology, 2023-2035 (USD Billion)
• Figure 10.4 Dental 3D Printing Market for Powder Bed Fusion Technology, 2023-2035 (USD

Billion)

• Figure 10.5 Dental 3D Printing Market for Polyjet Technology, 2023-2035 (USD Billion)
• Figure 10.6 Dental 3D Printing Market for Metal Extrusion Technology, 2023-2035 (USD

Billion)

• Figure 10.7 Dental 3D Printing Market for Other Technologies, 2023-2035 (USD Billion)
• Figure 10.8 Dental 3D Printing Market: Distribution by Application Area, 2023 and 2035 (USD Billion)
• Figure 10.9 Dental 3D Printing Market for Prosthodontics, 2023-2035 (USD Billion)
• Figure 10.10 Dental 3D Printing Market for Orthodontics, 2023-2035 (USD Billion)
• Figure 10.11 Dental 3D Printing Market for Dental Implants, 2023-2035 (USD Billion)
• Figure 10.12 Dental 3D Printing Market for Other Applications, 2023-2035 (USD Billion)
• Figure 10.13 Dental 3D Printing Market: Distribution by Type of Printing Material, 2023 and 2035 (USD Billion)
• Figure 10.14 Dental 3D Printing Market for Resins, 2023-2035 (USD Billion)
• Figure 10.15 Dental 3D Printing Market for Plastics, 2023-2035 (USD Billion)
• Figure 10.16 Dental 3D Printing Market for Metals, 2023-2035 (USD Billion)
• Figure 10.17 Dental 3D Printing Market for Ceramics, 2023-2035 (USD Billion)
• Figure 10.18 Dental 3D Printing Market for Other Material, 2023-2035 (USD Billion)
• Figure 10.19 Dental 3D Printing Market: Distribution by Geography, 2023 and 2035 (USD Billion)
• Figure 10.20 Dental 3D Printing Market in North America, 2023-2035 (USD Billion)
• Figure 10.21 Dental 3D Printing Market in Europe, 2023-2035 (USD Billion)
• Figure 10.22 Dental 3D Printing Market in Asia-Pacific, 2023-2035 (USD Billion)
• Figure 10.23 Dental 3D Printing Market in Latin America, 2023-2035 (USD Billion)
• Figure 10.24 Dental 3D Printing Market in Middle East and North Africa, 2023-2035 (USD Billion)
• Figure 10.25 Dental 3D Printing Market in Rest of the World, 2023-2035 (USD Billion)
• Figure 11.1 Concluding Remarks: Overall Market Landscape
• Figure 11.2 Concluding Remarks: Partnerships and Collaborations
• Figure 11.3 Concluding Remarks: Patent Analysis
• Figure 11.4 Concluding Remarks: Market Forecast and Opportunity Analysis

INTRODUCTION

3D printing, also known as additive manufacturing, is a method of producing 3-dimensional objects layer-by-layer, using a computer aided design. Owing to its ability to print complex models using a wide range of materials, 3D printing has applications across various industries, including dental, aerospace, automotive, healthcare, food, fashion, mechanical engineering and other manufacturing industries. In recent years, the adoption of 3D printers has risen at a commendable pace, specifically in the dental industry. This is primarily due to the increasing scope of inhouse dental 3D printing, growth in digital dentistry business and rise in the demand for 3D printed products. 3D printing in dental industry is an advanced solution which produces high quality and more accurate dental products (including, crown and bridges, dentures, surgical guides and dental implants). Moreover, the process of dental 3D printing is time saving and economical for both the patients and dentists. Driven by the growing prevalence of dental diseases and rising demand for high quality dental products, the dental 3D printing market is anticipated to witness a steady growth in the foreseen future.

SCOPE OF THE REPORT

The “Dental 3D Printing Market, 2023-2035: Distribution by Type of Printing Technology (Vat Polymerization Technology, Powder Bed Fusion Technology, Polyjet Technology, Metal Extrusion Technology and Other Technologies), Application Area (Prosthodontics, Orthodontics, Dental Implants and Other Applications), Type of Printing Material (Resins, Plastics, Metals, Ceramics and Other Materials) and Key Geographical Regions (North America, Europe, Asia-Pacific, Latin America, Middle East and North Africa, and Rest of the World): Industry Trends and Global Forecasts, 2023-2035” report features an extensive study of the current market landscape and future opportunity for the players involved in the field of dental 3D printing. The report answers many key questions related to this domain.

Advantages of Dental 3D Printing

The conventional dental product manufacturing methods are fraught with several challenges, including poor quality and accuracy of dental products, time-consuming printing processes and high cost of dental products. Dental 3D printing offers more treatment choices for both patients and clinicians in economical prices, while increasing the quality of care and services provided to the patients. Further, given that 3D printing is a digitalized process, the products manufactured using it can be easily customized (even the complex dental structures), and, therefore, offers more precise and accurate solutions for dental applications.

Key Drivers in the Dental 3D Printing Market

Several factors, including growing incidence of dental caries and other dental diseases, challenges associated with conventional methods of dental product manufacturing and rising demand for cosmetic dentistry, have led to the high adoption of dental 3D printers. Additionally, dental 3D printers can produce highly accurate restorations, orthodontic models, dentures, aligners, crowns, retainers, bridges, as well as surgical guides, from various types of materials, including resins, plastics, metals, ceramics and other materials.

Current Market Landscape of Dental 3D Printing

The current market landscape features around 230 dental 3D printers, manufactured by more than 75 players across the globe. The developer landscape features a mix of large, mid-sized and small companies, which claim to have the required expertise to offer dental 3D printers for use across different dental applications. Additionally, various recent developments aimed at revolutionizing the dental 3D printing industry with latest 3D printing technologies indicate that the printer manufacturers are upgrading their printer capabilities and infrastructure to accommodate the current and anticipated demand for dental 3D printed products.

Market Size of the Dental 3D Printing Market

Driven by the rising prevalence of dental diseases across the world and increasing adoption of the advanced dental 3D printing technologies, the dental 3D printing market is anticipated to grow at an annualized growth rate (CAGR) of 12.6% during the period 2023-2035. Presently, close to 75% of the market is captured by players based in North America and Europe.

Who are the Key Players in the Dental 3D Printing Market

Examples of key players engaged in this domain (the full list of players is captured in the main report) include 3D Systems, Asiga, BEGO, Carbon, Digital Wax Systems (DWS), Formlabs, Prodways, Rapid Shape, SprintRay and Stratasys.

The study presents an in-depth analysis, highlighting the capabilities of various stakeholders engaged in this domain, across different geographies. Amongst other elements, the report includes:

• An executive summary of the insights captured during our research. It offers a high-level view on the current state of dental 3D printing market and its likely evolution in the mid-long term.
• A general overview of dental 3D printing, highlighting details on technologies used in dental 3D printers and applications of 3D printing in the dental industry. It also presents information on the advantages and limitations associated with dental 3D printing. Additionally, it features a discussion on the future prospects within this domain.
• A detailed assessment of the overall market landscape of around 230 dental 3D printers, based on several relevant parameters, such as type of product(s) printed (crowns / bridges / dentures, working models, surgical guides, aligners/ hawley retainers/ brackets, implants, gingival masks and others), application area(s) (prosthodontics, orthodontics and dental implants), type of printing technology (digital light processing (DLP), stereolithography (SLA), liquid crystal display (LCD), selective laser melting (SLM), radio-frequency identification (RFID), direct metal laser sintering (DMLS), masked stereolithography (MSLA), carbon digital light synthesis (Carbon DLS), polyjet, melted extrusion modelling (MEM), powder bed fusion, subpixel micro scan (SMS), multijet and others), type of printing process (vat photopolymerization, powder bed fusion, polyjet, material extrusion and others), type of printing material(s) (resins, polymers, metals, ceramics and others / unspecified), printer wavelength (upto 405 nm and above 405 nm), type of connectivity (ethernet, USB, Wi-Fi, cloud and others / undisclosed), printing speed (below 50 mm/hour, 50-100 mm/hour, 101-150 mm/hour, 151-200 mm/hour, 201-25 mm/hour, 251-300 mm/hour and others), layer thickness of printed products (below 50 µm, 50-100 µm, 101-150 µm, 151-200 µm and above 200 µm), printer resolution (below 50 µm, 50-100 µm, above 100 µm and others) and printer price (below USD 10,000, USD 10,000-50,000, USD 50,000-100,000, above USD 100,000 and undisclosed). In addition, it provides details on the dental 3D printer manufacturers, along with analysis based on their year of establishment, company size, location of headquarters and leading players (in terms of number of dental 3D printers offered).
• A product competitiveness analysis of the dental 3D printers, based on supplier power (in terms of the experience of the developer) and product competitiveness (in terms of number of products printed, application area, printing process, type of printing material, wavelength, type of connectivity, layer thickness of printed products, resolution and printer price).
• Elaborate profiles of the prominent players (shortlisted based on proprietary scoring criteria) engaged in dental 3D printing domain. Each company profile features a brief overview of the company, details related to its dental 3D printer portfolio, recent developments and an informed future outlook.
• An analysis of partnerships that have been inked by stakeholders engaged in this domain, since 2018, covering instances of product integration agreements, distribution agreements, technology utilization agreements, acquisitions and mergers, commercialization agreements, service alliances, product development agreements, technology integration agreements, research and development agreements and others. Further, the partnership activity in this domain has been analyzed based on several relevant parameters, such as year of partnership, type of partnership, most active players (in terms of number of partnerships) and regional distribution of collaborations.
• An in-depth analysis of the patents that have been filed / granted related to dental 3D printing, since 2019, taking into consideration several relevant parameters, such as type of patent, publication year, application year, geographical location, CPC symbols, type of applicant, patent age and leading players (in terms of number of patents filed / granted). It also features a patent benchmarking analysis and a detailed patent characteristics and patent valuation analysis.
• A Bowman's strategy clock framework to understand the pricing strategy of the dental 3D printer offered by a company, along with its competitive position in the market. In addition, it presents the equation devised to calculate the likely price of dental 3D printers based upon their characteristics.

One of the key objectives of the report was to estimate the current opportunity and the future growth potential of the dental 3D printing market over the coming years. We have provided an informed estimates on the likely evolution of the market for the period, 2023-2035. Our year-wise projections of the current and forecasted opportunity have been further segmented based on relevant parameters, such as type of printing technology (vat polymerization technology, powder bed fusion technology, polyjet technology, metal extrusion technology and other technologies), application area (prosthodontics, orthodontics, dental implants and other applications), type of printing material (resins, plastics, metals, ceramics and other materials) and key geographical regions (North America, Europe, Asia-Pacific, Latin America, Middle East and North Africa and rest of the world). In order to account for future uncertainties associated with some of the key parameters and to add robustness to our model, we have provided three market forecast scenarios, portraying the conservative, base and optimistic approach of the industry's evolution.

The opinions and insights presented in the report were also influenced by discussions held with senior stakeholders in the industry. All actual figures have been sourced and analyzed from publicly available information forums and primary research discussions. Financial figures mentioned in this report are in USD, unless otherwise specified.

RESEARCH METHODOLOGY

The data presented in this report has been gathered via secondary and primary research. For all our projects, we conduct interviews / surveys with experts in the area (academia, industry, medical practice and other associations) to solicit their opinions on emerging trends in the market. This is primarily useful for us to draw out our own opinion on how the market will evolve across different regions and technology segments. Wherever possible, the available data has been checked for accuracy from multiple sources of information.

The secondary sources of information include:

• Annual reports
• Investor presentations
• SEC filings
• Industry databases
• News releases from company websites
• Government policy documents
• Industry analysts' views

While the focus has been on forecasting the market till 2035, the report also provides our independent view on various technological and non-commercial trends emerging in the industry. This opinion is solely based on our knowledge, research and understanding of the relevant market gathered from various secondary and primary sources of information.

KEY QUESTIONS ANSWERED

Question 1: What is the growth rate of the dental 3D printing market?

Answer: The global dental 3D printing market is expected to grow at a CAGR of 12.6% from 2023 to 2035.

Question 2: Which region captures the largest share of the dental 3D printing market?

Answer: Currently, North America captures 45% of the global dental 3D printing market. Further, Asia-Pacific is likely to grow at the fastest pace during the forecasted period.

Question 3: Which printing technology currently accounts for the largest share in the dental 3D printing?

Answer: The vat polymerization technology segment currently captures the largest share (60%) of the overall dental 3D printing market. This trend is unlikely to change during the forecasted period.

Question 4: Which application area currently holds the largest share in the dental 3D printing market?

Answer: Presently, the prosthodontics segment (55%) accounts for the largest share in the global dental 3D printing market.

Question 5: What is the partnership and collaboration trend in the dental 3D printing domain?

Answer: A significant rise in the partnership activity was witnessed over the last two years, accounting for more than 60% of the total deals inked in the dental 3D printing domain. Further, more than 25% of the deals were for product integration agreements.

Question 6: How many patents have been filed / granted related to dental 3D printing in the recent years?

Answer: More than 520 patents have been filed / granted for dental 3D printing by various stakeholders, since 2019, indicating an increase in research, and subsequently, the expansion of intellectual capital in this domain.

Question 7: How is 3D printing used in the dental industry?

Answer: 3D Printing in dental industry is used to manufacture several dental products, such as crowns, bridges, dentures, working models, brackets, aligners, surgical guides and frameworks for implant and dental restorations.

Question 8: How many dental 3D printers are currently available in the market?

Answer: Currently, around 230 dental 3D printers are available for use across wide range of dental applications.

Question 9: Which 3D printers are best for dentistry?

Answer: Printers using vat polymerization as printing technology are the best printers for dentistry. Example of some printers using this technology include, AccuFab-L4D, Form 3B+, Einstein™ 3D Printer, Envision One, Planmeca Creo® C5, DENTIQ, NextDent 5100 and Pro95S.

CHAPTER OUTLINES

Chapter 1: is a preface providing an introduction to the full report, Dental 3D Printing Market, 2023-2035.

Chapter 2: is an executive summary of the key insights captured in our report. It offers a high-level view on the likely evolution of the dental 3D printing market in the short to mid-term, and long term.

Chapter 3: provides a general overview of dental 3D printing, highlighting details on technologies used in dental 3D printers and applications of 3D printing in the dental industry. It also presents information on the advantages and limitations associated with dental 3D printing. Additionally, it features a discussion on the future prospects within this domain.

Chapter 4: includes information of around 230 dental 3D printers currently available for use across wide range of dental applications. The chapter features an elaborate analysis of dental 3D printers based on several relevant parameters, such as types of product(s) printed (crowns / bridges / dentures, working models, surgical guides, aligners/ hawley retainers/ brackets, implants, gingival masks and others), application area(s) (prosthodontics, orthodontics and dental implants), type of printing technology (digital light processing (DLP), stereolithography (SLA), liquid crystal display (LCD), selective laser melting (SLM), radio-frequency identification (RFID), direct metal laser sintering (DMLS), masked stereolithography (MSLA), carbon digital light synthesis (Carbon DLS), polyjet, melted extrusion modelling (MEM), powder bed fusion, subpixel micro scan (SMS), multijet and others), type of printing process (vat photopolymerization, powder bed fusion, polyjet, material extrusion and others), type of printing material(s) (resins, polymers, metals, ceramics and others / unspecified), printer wavelength (upto 405 nm and above 405 nm), type of connectivity (ethernet, USB, Wi-Fi, cloud and others / undisclosed), printing speed (below 50 mm/hour, 50-100 mm/hour, 101-150 mm/hour, 151-200 mm/hour, 201-25 mm/hour, 251-300 mm/hour and others), layer thickness of printed products (below 50 µm, 50-100 µm, 101-150 µm, 151-200 µm and above 200 µm), printer resolution (below 50 µm, 50-100 µm, above 100 µm and others) and printer price (below USD 10,000, USD 10,000-50,000, USD 50,000-100,000, above USD 100,000 and undisclosed). In addition, it provides details on the dental 3D printer manufacturers, along with analysis based on their year of establishment, company size, location of headquarters and leading players (in terms of number of dental 3D printers offered).

Chapter 5: presents a product competitiveness analysis of the dental 3D printers, based on supplier power (in terms of the experience of the developer) and product competitiveness (in terms of number of products printed, application area, printing process, type of printing material, wavelength, type of connectivity, layer thickness of printed products, resolution and printer price).

Chapter 6: features detailed profiles of the prominent dental 3D printer manufacturers (shortlisted based on proprietary scoring criteria). Each company profile features a brief overview of the company, details related to its dental 3D printer portfolio, recent developments and an informed future outlook.

Chapter 7: features an analysis of the various collaborations and partnerships inked between stakeholders engaged in this domain, since 2018. Further, the partnership activity in this domain has been analyzed based on various parameters, such as year of partnership, type of partnership model (product integration agreements, distribution agreements, technology utilization agreements, acquisitions and mergers, commercialization agreements, service alliances, product development agreements, technology integration agreements, research and development agreements and others), most active players (in terms of number of partnerships inked) and regional distribution (continent and country-wise) of partnership activity.

Chapter 8: provides an insightful analysis of the patents that have been filed / granted related to dental 3D printing, since 2019, taking into consideration several relevant parameters, such as type of patent, publication year, application year, geographical locations, CPC symbols, type of applicant, patent age and leading players (in terms of number of patents filed / granted). It also features a patent benchmarking analysis and a detailed patent characteristics and patent valuation analysis.

Chapter 9: presents a Bowman's strategy clock framework to understand the pricing strategy of the dental 3D printer offered by a company, along with its competitive position in the market. In addition, it presents the equation devised to calculate the likely price of dental 3D printers based upon their characteristics.

Chapter 10: features a comprehensive market forecast analysis, highlighting the likely growth of the dental 3D printing market, till 2035. We have segregated the current and future opportunity based on type of printing technology (vat polymerization technology, powder bed fusion technology, polyjet technology, metal extrusion technology and other technologies), application area (prosthodontics, orthodontics, dental implants and other applications), type of printing material (resins, plastics, metals, ceramics and other materials) and key geographical regions (North America, Europe, Asia-Pacific, Latin America, Middle East and North Africa and rest of the world).

Chapter 11: presents the summary of the overall report. The chapter provides the key takeaways from the report and expresses our independent opinion of the dental 3D printing market, based on the research and analysis described in the previous chapters.

Chapter 12: provides the transcripts of the interviews conducted with representatives from renowned organizations that are engaged in offering dental 3D printers.

Chapter 13: is an appendix, which contains tabulated data and numbers for all the figures included in this report.

Chapter 14: is an appendix, which contains a list of companies and organizations mentioned in this report.

TABLE OF CONTENTS

1. PREFACE

• 1.1. Scope of the Report
• 1.2. Market Segmentation
• 1.3. Research Methodology
• 1.4. Key Questions Answered
• 1.5. Chapter Outlines

2. EXECUTIVE SUMMARY

3. INTRODUCTION

• 3.1. Chapter Overview
• 3.2. Overview of Dental 3D Printing
• 3.3. Dental 3D Printing Technologies
• 3.4. Applications of 3D Printing in Dental Industry
• 3.5. Advantages and Limitations Associated with Dental 3D Printing
• 3.6. Future Perspectives

4. MARKET LANDSCAPE

• 4.1. Chapter Overview
• 4.2. Dental 3D Printers: Overall Market Landscape
  • 4.2.1. Analysis by Types of Products Printed
  • 4.2.2. Analysis by Application Area
  • 4.2.3. Analysis by Type of Printing Technology
  • 4.2.4. Analysis by Type of Printing Process
  • 4.2.5. Analysis by Type of Printing Material
  • 4.2.6. Analysis by Printer Wavelength
  • 4.2.7. Analysis by Type of Connectivity
  • 4.2.8. Analysis by Printing Speed
  • 4.2.9. Analysis by Layer Thickness of Printed Products
  • 4.2.10. Analysis by Printer Resolution
  • 4.2.11. Analysis by Printer Price
• 4.3. Dental 3D Printer Manufacturers: Developer Landscape
  • 4.3.1. Analysis by Year of Establishment
  • 4.3.2. Analysis by Company Size
  • 4.3.3. Analysis by Location of Headquarters
  • 4.3.4. Most Active Players: Analysis by Number of Dental 3D Printers

5. PRODUCT COMPETITIVE ANALYSIS

• 5.1. Chapter Overview
• 5.2. Assumptions and Key Parameters
• 5.3. Methodology
• 5.4. Product Competitiveness Analysis: Dental 3D Printers

6. COMPANY PROFILES

• 6.1. Chapter Overview
• 6.2. 3D Systems
  • 6.2.1. Company Overview
  • 6.2.2. Dental 3D Printer Portfolio
  • 6.2.3. Recent Developments and Future Outlook
• 6.3. Asiga
  • 6.3.1. Company Overview
  • 6.3.2. Dental 3D Printer Portfolio
  • 6.3.3. Recent Developments and Future Outlook
• 6.4. BEGO
  • 6.4.1. Company Overview
  • 6.4.2. Dental 3D Printer Portfolio
  • 6.4.3. Recent Developments and Future Outlook
• 6.5. Carbon
  • 6.5.1. Company Overview
  • 6.5.2. Dental 3D Printer Portfolio
  • 6.5.3. Recent Developments and Future Outlook
• 6.6. Digital Wax Systems (DWS)
  • 6.6.1. Company Overview
  • 6.6.2. Dental 3D Printer Portfolio
  • 6.6.3. Recent Developments and Future Outlook
• 6.7. Formlabs
  • 6.7.1. Company Overview
  • 6.7.2. Dental 3D Printer Portfolio
  • 6.7.3. Recent Developments and Future Outlook
• 6.8. Prodways
  • 6.8.1. Company Overview
  • 6.8.2. Dental 3D Printer Portfolio
  • 6.8.3. Recent Developments and Future Outlook
• 6.9. Rapid Shape
  • 6.9.1. Company Overview
  • 6.9.2. Dental 3D Printer Portfolio
  • 6.9.3. Recent Developments and Future Outlook
• 6.10. SprintRay
  • 6.10.1. Company Overview
  • 6.10.2. Dental 3D Printer Portfolio
  • 6.10.3. Recent Developments and Future Outlook
• 6.11. Stratasys
  • 6.11.1. Company Overview
  • 6.11.2. Dental 3D Printer Portfolio
  • 6.11.3. Recent Developments and Future Outlook

7. PARTNERSHIPS AND COLLABORATIONS

• 7.1. Chapter Overview
• 7.2. Partnership Models
• 7.3. Dental 3D Printing: List of Partnerships and Collaborations
  • 7.3.1. Analysis by Year of Partnership
  • 7.3.2. Analysis by Type of Partnership
  • 7.3.3. Analysis by Year and Type of Partnership
  • 7.3.4. Most Active Players: Analysis by Number of Partnerships
  • 7.3.5. Geographical Analysis
    • 7.3.5.1. International and Local Agreements
    • 7.3.5.2. Intercontinental and Intracontinental Agreements

8. PATENT ANALYSIS

• 8.1. Chapter Overview
• 8.2. Scope and Methodology
• 8.3. Dental 3D Printing: Patent Analysis
  • 8.3.1. Analysis by Type of Patent
  • 8.3.2. Analysis by Patent Publication Year
  • 8.3.3. Analysis by Patent Application Year
  • 8.3.4. Analysis by Annual Number of Granted Patents and Patent Applications
  • 8.3.5. Analysis by Geographical Location
  • 8.3.6. Analysis by CPC Symbols
  • 8.3.7. Analysis by Type of Applicant
  • 8.3.8. Analysis by Patent Age
  • 8.3.9. Leading Industry Players: Analysis by Number of Patents
  • 8.3.10. Leading Non-Industry Players: Analysis by Number of Patents
  • 8.3.11. Leading Individual Assignees: Analysis by Number of Patents
• 8.4. Dental 3D Printing: Patent Benchmarking Analysis
  • 8.4.1. Analysis by Patent Characteristics
• 8.5. Dental 3D Printing: Patent Valuation
• 8.6. Leading Patents by Number of Citations

9. BOWMAN CLOCK PRICING

• 9.1. Chapter Overview
• 9.2. Bowman Strategy Clock
  • 9.2.1. Two Dimensions of Bowman Strategy Clock
  • 9.2.2. Eight Positions on Bowman Strategy Clock
• 9.3. Roots Analysis Framework
  • 9.3.1. Scope and Methodology
  • 9.3.2. Theoretical Framework and Price Evaluation Hypothesis
  • 9.3.3. Results and Interpretation
    • 9.3.3.1. Product Price Evaluation Matrix: Information on Types of Products Printed
    • 9.3.3.2. Product Price Evaluation Matrix: Information on Application Area
    • 9.3.3.3. Product Price Evaluation Matrix: Information on Type of Printing Technology
    • 9.3.3.4. Product Price Evaluation Matrix: Information on Type of Printing Process
    • 9.3.3.5. Product Price Evaluation Matrix: Information on Type of Printing Material
    • 9.3.3.6. Product Price Evaluation Matrix: Information on Type of Connectivity
  • 9.3.4. Concluding Remarks

10. MARKET FORECAST AND OPPORTUNITY ANALYSIS

• 10.1. Chapter Overview
• 10.2. Forecast Methodology and Key Assumptions
• 10.3. Global Dental 3D Printing Market, 2023-2035
  • 10.3.1. Dental 3D Printing Market: Distribution by Type of Printing Technology, 2023 and 2035
    • 10.3.1.1. Dental 3D Printing Market for VAT Polymerization Technology, 2023-2035
    • 10.3.1.2. Dental 3D Printing Market for Powder Bed Fusion Technology, 2023-2035
    • 10.3.1.3. Dental 3D Printing Market for Polyjet Technology, 2023-2035
    • 10.3.1.4. Dental 3D Printing Market for Metal Extrusion Technology, 2023-2035
    • 10.3.1.5. Dental 3D Printing Market for Other Technologies, 2023-2035
  • 10.3.2. Dental 3D Printing Market: Distribution by Application Area, 2023 and 2035
    • 10.3.2.1. Dental 3D Printing Market for Prosthodontics, 2023-2035
    • 10.3.2.2. Dental 3D Printing Market for Orthodontics, 2023-2035
    • 10.3.2.3. Dental 3D Printing Market for Dental Implants, 2023-2035
    • 10.3.2.4. Dental 3D Printing Market for Other Applications, 2023-2035
  • 10.3.3. Dental 3D Printing Market: Distribution by Type of Printing Material, 2023 and 2035
    • 10.3.3.1. Dental 3D Printing Market for Resins, 2023-2035
    • 10.3.3.2. Dental 3D Printing Market for Plastics, 2023-2035
    • 10.3.3.3. Dental 3D Printing Market for Metals, 2023-2035
    • 10.3.3.4. Dental 3D Printing Market for Ceramics, 2023-2035
    • 10.3.3.5. Dental 3D Printing Market for Other Material, 2023-2035
  • 10.3.4. Dental 3D Printing Market: Distribution by Geography, 2023 and 2035
    • 10.3.4.1. Dental 3D Printing Market in North America, 2023-2035
    • 10.3.4.2. Dental 3D Printing Market in Europe, 2023-2035
    • 10.3.4.3. Dental 3D Printing Market in Asia-Pacific, 2023-2035
    • 10.3.4.4. Dental 3D Printing Market in Latin America, 2023-2035
    • 10.3.4.5. Dental 3D Printing Market in Middle East and North Africa, 2023-2035
    • 10.3.4.6. Dental 3D Printing Market in Rest of the World, 2023-2035

11. CONCLUDING REMARKS

12. EXECUTIVE INSIGHTS

• 12.1. Chapter Overview
• 12.2. 3DTech
  • 12.2.1. Company Snapshot
  • 12.2.2. Interview Transcript: Luka Biondic, Chief Executive Officer
• 12.3. Totustec
  • 12.3.1. Company Snapshot
  • 12.3.2. Interview Transcript: Robin Wang, General Manager

13. APPENDIX 1: TABULATED DATA

14. APPENDIX 2: LIST OF COMPANIES AND ORGANIZATIONS