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アイウェア(眼鏡等)における3D印刷 2021年: マス・カスタマイゼーションからスマートグラスまで

3D Printing in Eyewear: From Mass Customization to Smartglasses 2021

 

出版社 出版年月電子版価格
SmarTech Analysis
スマーテックアナリシス
2020年11月US$4,995
シングルユーザライセンス(1PC)

サマリー

米国調査会社スマーテックマーケッツパブリッシング(SmarTech Markets Publishing)の調査レポート「アイウェア(眼鏡等)における3D印刷 2021年: マス・カスタマイゼーションからスマートグラスまで」は、アイウェア業界のAM(付加製造(積層造形))固有の年間収益機会は2030年までに22億6000万ドルに達し、2020年から20%のCAGRで成長すると予測している。この数字には3つの主要なAM業界特有のセグメント(AMハードウェア、AM材料、AMサービス)から得られる収益が含まれている。

このレポートは、AMハードウェア、AM材料、AMサービス、およびAMソフトウェアが、進化する眼鏡業界のシナリオによってどのように影響を受けるかについての最新の分析を提供する。また各主要セグメント(ハードウェア、材料、アプリケーション)の完全な地理的内訳とアイウェアAM市場のローカライズされた予測を提供している。

 


 

Markets for 3D Printing Eyewear 2021 analyzes the current market landscape and forecasts the next decade of business opportunities, projecting that AM-specific yearly revenue opportunities in the eyewear industry will amount to $2.26 billion by 2030, growing at a CAGR of 20% from 2020.  This figure includes revenues generated by three primary AM-industry specific segments: AM hardware, AM materials and AM services. Overall revenues, including 3D capturing eyewear and software as well as all 3D printed applications, will amount to over $5 billion yearly. 

The report also provides an unprecedented analysis deep into the revenue opportunities offered by the global eyewear segment, reflecting advancements in all three key segments where 3D printing technologies are impacting footwear production: prototyping, tooling and final parts. The report also provides an updated analysis of how AM hardware, AM materials, AM service and AM software are impacted by the evolving eyewear industry scenario.

A full geographic breakdown and localized forecast of the eyewear AM market, for each key segment (hardware, materials, applications) is provided.

All key operators in this segment have been identified and classified, all major technologies and all AM material classes have been analyzed for their potential on eyewear part production in order to assess the associated revenue opportunities from all angles. Key stakeholders highlighted include: Materialise, EOS, HP, BASF, Luxexcel, HOYA, Luxottica, Safilo, Facebook and dozens of startups and design studios.

3D Printing in Eyewear: From Mass Customization to Smartglasses 2021
Published on Nov 12, 2020 SKU SMP-AM-3DPEYE-1120



目次

Chapter One: Eyewear as a Key 3D-printed Consumer Product Category

1.1 The Global Eyewear Industry and Trends
1.1.1 Setting the Backdrop: a $120-$200 Million Business
1.1.2 Defining Eyewear
1.1.3 Future Trends in the Eyewear Sector
1.2 Key Drivers for Adoption of AM in Eyewear Manufacturing
1.3 Factors Limiting Adoption of AM in Eyewear Manufacturing
1.4 The AM Market for Eyewear vs. Other 3D Printable Consumer Products
1.4.1 AM Hardware for Eyewear Production
1.4.2 AM Materials for Eyewear Production
1.5 Global Trends in 3D Printed Eyewear
1.5.1 Europe Exploring Eyewear Innovation First
1.5.2 AM Activities and Exploration by Eyewear Giants
1.6 Technologies and Materials for 3D Printed Eyewear
1.6.1 Technologies for 3D Printing Frames
1.6.2 Materials for 3D Printing Frames
1.6.3 Eyewear Personalization Hardware and Software
1.6.4 Printed Lens Technologies and Materials
1.7 Ten-year Global Market Outlook for 3D Printed Eyewear
1.7.1 Ten-year Forecast for AM-Industry-Specific Segments within the Eyewear Industry
1.7.2 Ten-year Forecast for All AM-Related Revenues Within the Eyewear Industry
1.8 Methodology
1.9 Key Points from this Chapter

Chapter Two: AM Hardware, Materials and Bureaus at the Eyewear Industry’s Service

2.1 Eyewear 3D Printing Hardware
2.1.1 Powder Bed Fusion
2.1.2 Material Jetting
2.1.3 Photopolymerization
2.1.4 Filament Extrusion
2.1.5 Metal AM Technologies: PBF and Binder Jetting
2.1.6 Ten-year AM Hardware Forecast in the Eyewear Industry
2.2 AM Materials for Eyewear Production
2.2.1 Powders: Nylon and composites
2.2.2 Photopolymers
2.2.3 Filaments
2.2.4 Metals
2.2.5 Ten-year Forecast for All AM Materials in the Eyewear Industry
2.3 AM Services for Eyewear Designers
2.3.1 A Key Application for the Application Agnostics
2.4 Key Points from this Chapter

Chapter Three: Facial 3D Capturing/Scanning Hardware and Design Software on the Road to Mass Customization of Eyewear Products

3.1 3D Scanning Technologies and 3D Capturing Hardware/Software
3.1.1 The Yuniku (Hoya-Materialise) Eyewear 3D Scanner and Software
3.1.2 The 3D Mirror from Sfered and Fuel3D
3.1.3 3D Scanning Software and Apps
3.2 Design Software and Apps
3.2.1 For You (by You)
3.3 The Transition to Mass Customized Eyewear
3.3.1 Ten-year Forecast of Revenues from Digitalization and Design Software in the Eyewear Customization
3.4 Key Points from this Chapter

Chapter Four: 3D Printing Applications for the Eyewear Industry

4.1 Adding Additive Manufacturing at Luxottica
4.1.1 The Eyewear Mass Customization Workflow
4.1.2 Different Approaches to Eyewear 3D Printing
4.2 3D Printing Applications for Eyewear
4.2.1 Ten-year Forecast of All Printed Parts in the End-to-end Eyewear Production Cycle
4.2.2 Ten-year Forecast of All Parts Printed by Filament Extrusion
4.2.3 Ten-year Forecast of All Parts Printed by Powder Bed Fusion
4.2.4 Ten-year Forecast of All Parts Printed by Photopolymerization
4.2.5 Ten-year Forecast of All Parts Printed by Material Jetting
4.3 Prototypes
4.4 Tools and Cast Patterns (Indirect Production)
4.5 Final Parts (Direct Production)
4.5.1 Geographic Distribution of 3D-printed Eyewear Final Parts and End-use Products
4.6 Key Points from this Chapter

About SmarTech Publishing
About the Analyst
Acronyms and Abbreviations Used In this Report

 

List of Exhibits

Exhibit 1-1: Global Eyewear Revenues vs. 3D Printed Eyewear Revenues
Exhibit 1-2: Eyewear vs. 3D Printed Eyewear Revenues 2018 - 2028
Exhibit 1-3: All Eyewear vs. 3D Printed Eyewear YoY Growth Trends
Exhibit 1-4: Definitions of Eyewear Products
Exhibit 1-5: Major Trends and Future Businesses in the Global Eyewear Industry
Exhibit 1-6: AM Hardware Revenues in the Eyewear Segment vs. All Consumer Businesses
Exhibit 1-7: AM Materials Revenues in the Eyewear Segment vs. All Consumer Businesses
Exhibit 1-8: 3D Printed Eyewear Revenues by Geographic Location
Exhibit 1-9: AM Industry Revenues Within the Eyewear Industry
Exhibit 1-10: AM-Industry-Specific Segment Revenues Growth Trend Comparison
Exhibit 1-11: AM-Industry-Specific Segment CAGR
Exhibit 1-12: All AM-Revenues in the Eyewear Industry (Including Value of Applications
Exhibit 1-13: All AM-Related Revenues CAGR in the Eyewear Industry
Exhibit 2-1: Latest Production-Grade PBF Systems for Eyewear Production from Key System Manufacturers
Exhibit 2-2: Powder Bed Fusion Hardware Demand by AM Application
Exhibit 2-3: Latest Material Jetting Systems for Eyewear Production from Key System Manufacturers for Prototyping, Investment Casting and Final Part Production
Exhibit 2-4: Material Jetting Hardware Demand by AM Application
Exhibit 2-5: Latest Photopolymerization Systems for Eyewear Production From Key System Manufacturers for Prototyping, Investment Casting and Final Part Production
Exhibit 2-6: Photopolymerization Hardware Demand by AM Application
Exhibit 2-7: Filament Extrusion Hardware Demand by AM Application
Exhibit 2-8: Expected AM Hardware Units Demand in the Eyewear Industry
Exhibit 2-9: Forecasted AM Hardware Units Revenues in the Eyewear Industry
Exhibit 2-10: Expected Average Price of AM Hardware Systems for Use in the Eyewear Industry
Exhibit 2-11: Expected Thermoplastic Powder Demand in Eyewear by AM Application
Exhibit 2-12: Expected Vat Photopolymer Demand in Eyewear by AM Application
Exhibit 2-13: Expected Jet Photopolymer Demand in Eyewear by AM Application
Exhibit 2-14: Expected Filaments Demand in Eyewear by AM Application
Exhibit 2-15: Expected AM Materials Demand in the Eyewear Industry
Exhibit 2-16: Forecasted AM Materials Revenues in the Eyewear Industry
Exhibit 2-17: Comparison of AM Services Revenues in Eyewear vs. All Eyewear 3D Printed Parts
Exhibit 3-1: 3D Capturing Hardware and Software Sales in the Eyewear Industry
Exhibit 4-1: Typical End-to-end Workflow for Mass customized Eyewear
Exhibit 4-2: Global Suppliers of 3D Printed Eyewear: Products, Technologies and Locations
Exhibit 4-3: Revenues Forecast for All 3D Printed Parts in Eyewear Production
Exhibit 4-4: Growth Trends for All 3D Printed Parts in Eyewear Production
Exhibit 4-5: CAGR for All 3D Printed Parts in Eyewear Production
Exhibit 4-6: Eyewear Parts Units Printed by Filament Extrusion
Exhibit 4-7: Average Price of Eyewear Parts Printed by Filament Extrusion
Exhibit 4-8: Eyewear Part Units Printed by Powder Bed Fusion
Exhibit 4-9: Average Price of Eyewear Parts Printed by Powder Bed Fusion
Exhibit 4-10: Eyewear Parts Units Printed by Photopolymerization
Exhibit 4-11: Average Price of Eyewear Parts Printed by Photopolymerization
Exhibit 4-12: Eyewear Parts Units Printed by Material Jetting
Exhibit 4-13: Average Price of Eyewear Parts Printed by Filament Extrusion
Exhibit 4-14: Forecasted Revenues from Eyewear Prototypes
Exhibit 4-15: Forecasted Revenues from Eyewear Tools and Cast Patterns
Exhibit 4-16: Forecast of Revenues from Eyewear End-use Final Parts
Exhibit 4-17: Geographic Distribution of 3D Printed Eyewear Final Parts Related Revenues

 

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プレスリリース

Additive Manufacturing in the Eyewear Industry to Generate $2.3 Billion yearly by 2030

November 17, 2020

New York, NY:  SmarTech Analysis, the leading market research firm in the 3D printing/additive manufacturing space just issued a new edition of its market-leading analysis of AM adoption in the eyewear manufacturing segment, comprising sunglasses, eyewear frames, ophthalmic lenses, professional and sporting gear and smartglasses.

In the new report, titled, “Markets for 3D Printing Eyewear 2021”, the firm analyzes the current market landscape and forecasts the next decade of business opportunities, projecting that AM-specific yearly revenue opportunities in the eyewear industry will amount to $2.26 billion by 2030, growing at a CAGR of 20% from 2020.

This figure includes revenues generated by three primary AM-industry specific segments: AM hardware, AM materials and AM services. Overall revenues, including 3D capturing eyewear and software as well as all 3D printed applications, will amount to over 5 billion yearly.

Extensive interviews with key market innovators and drivers were conducted in order to provide this most up-to-date market scenario.

 

About the Report

The report provides an unprecedented analysis deep into the revenue opportunities offered by the global eyewear segment, reflecting advancements in all three key segments where 3D printing technologies are impacting footwear production: prototyping, tooling and final parts. The report also provides an updated analysis of how AM hardware, AM materials, AM service and AM software are impacted by the evolving eyewear industry scenario.

Entirely new in this report, is a full geographic breakdown and localized forecast of the eyewear AM market, for each key segment (hardware, materials, applications).

End-use part production is identified as the key application for eyewear, not just in the long term but in the current market as well. Powder bed fusion processes are dominant, with some alternative technologies also emerging. AM services such as Materialise, with specialized eyewear production lines, are standing out as the clear market leaders and the most ideally suited to reap the benefits from eyewear AM.  The application analysis thus focuses on the opportunity around final parts, providing the most accurate data analyses and projections to date of the number and revenues associated with eyewear mass customization, smartglasses advancements and on-demand production.

All key operators in this segment have been identified and classified, all major technologies and all AM material classes have been analyzed for their potential on eyewear part production in order to assess the associated revenue opportunities from all angles. Key stakeholders highlighted include: Materialise, EOS, HP, BASF, Luxexcel, HOYA, Luxottica, Safilo, Facebook and dozens of startups and design studios.

 

From the Report

SmarTech Analysis expects that AM-specific yearly revenue opportunities in the eyewear industry will amount to $2.26 billion by 2030, growing at a CAGR of 20% from $327 million in 2020. This figure includes revenues generated by three primary AM-industry specific segments: AM hardware, AM materials and AM services.

Powder bed fusion (PBF) is by far the most common AM technology in eyewear production today, producing as much as 80% to 85% of all final parts (including full end-use products). The technology is also used for prototyping.

The most common material used in eyewear production remains nylon. This material—in particular PA12—is the most versatile and effective material used in all powder bed fusion technologies. In the future it is possible that other nylon materials (such as PA6 and PA66 form BASF) or composite powders containing carbon or glass chopped fibers may become more common as 3D-printed eyewear demand increases and along with the requirements for more advanced material properties. Variations already exist today mainly in terms of finishing treatments.

3D scanners are part of the digital additive manufacturing workflow in a multitude of adoption verticals. Both Apps (that leverage the 3D vision capabilities of the latest mobile devices) and dedicated 3D scanners are now being implemented in the eyewear industry as this consumer product segments moves toward digital production and mass customization. Some of the start-ups offering these services have closed but the majority is growing and evolving its product offers.

SmarTech Analysis expects that future adoption of 3D printing in manufacturing will evolve through two different major pathways. One is by providing the means for several smaller studios to challenge the larger groups by expressing new ideas and offering new customization options. The other is by large groups such as Luxottica and Safilo (among others) to expand their prototyping and product development activities, bringing production in-house to respond even more rapidly to changing fashion trends and client demands. In both cases the value proposition of 3D-printed eyewear is going to significantly affect both production cycle and supply chain dynamics.

 

About SmarTech Analysis

Since 2013 SmarTech Analysis has published reports on all the important revenue opportunities in the 3D printing/additive manufacturing sector and is considered the leading industry analyst firm providing coverage of this sector. Our company has a client roster that includes the largest 3D printer firms, materials firms and investors in the 3DP/AM sector.

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