3D-Printed Footwear 2020-2030, an Analysis of the Market Potential of 3D Printing in the Footwear Industry
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Table of Contents Footwear 2020-2030
Chapter One: Accelerating AM Adoption in the Footwear Industry
1.1 Drivers for Additive Manufacturing Adoption in Footwear Production
1.2 Goldilocks Footwear Manufacturing
1.2.1 Differentiating Between Footwear Robotic Manufacturing and 3D Printing of Footwear
Parts
1.3 Designing for Footwear Additive Manufacturing (DfFAM)
1.4 Ten-year Forecast of Additive Manufacturing Opportunities in the Footwear Industry
1.5 Methodology
1.6 Key Points from This Chapter
Chapter Two: Evolving AM Hardware Adoption Scenarios in the Footwear Industry
2.1 Key AM Hardware Technologies for the Footwear Industry
2.1.1 Ten-year Forecast for AM Hardware in Footwear
2.2 Vat Photopolymerization Technologies Used in the Footwear Segment
2.2.1 Photopolymerization Hardware Companies’ Strategies for the Footwear Segment
2.2.2 Forecast of Photopolymerization AM Hardware Opportunities in Footwear
2.3 Polymer Powder Bed Fusion Technologies Used in the Footwear Segment
2.3.1 Polymer Powder Bed Fusion Hardware Companies’ Strategies for Footwear
2.3.2 Forecast of Polymer Powder Bed Fusion AM Hardware Opportunities in Footwear
2.4 Material Extrusion Technologies Used in the Footwear Segment
2.4.1 Material Extrusion Hardware Companies’ Strategies for Footwear
2.4.2 Forecast of Material Extrusion AM Hardware Opportunities in Footwear
2.5 Material Jetting Technologies Used in the Footwear Segment
2.5.1 Material Jetting Hardware Companies’ Strategies for Footwear
2.5.2 Forecast of Material Jetting AM Hardware Opportunities in Footwear
2.6 Geographic Distribution of AM Hardware Sales in the Footwear Industry
2.6.1 Taking a Closer Look at Geographic PBF and Photopolymerization Hardware Trends
2.7 Key Points from This Chapter
Chapter Three: Evolving Material Demand in Footwear Additive Manufacturing as Thermosets Join Powders and Resins
3.1 Key Materials for Footwear AM
3.2 Key Materials Manufacturers Strategies for Footwear AM
3.3 Ten-year Forecast for Materials Demand and Revenues in Footwear AM
3.3.1 Ten-year Forecast of Materials Demand and Revenues Opportunity in Footwear AM
3.3.2 Ten-year Forecast of Materials Revenues by Type of AM Application in Footwear AM
3.3.3 Ten-year Forecast of Materials Demand by Type of Material in Footwear AM
3.4 Geographic Distribution of Material Revenues in Footwear Additive Manufacturing
3.5 Key Points from This Chapter
Chapter Four: AM Services, Software and Data Capturing for Mass Customization of Footwear
4.1 Footwear AM Services
4.2 Key Software Strategies in Footwear 3D Printing
4.2.1 Professional Shoe Design Software
4.2.2 Use of Traditional CAD/CAE Software for Footwear
4.2.3 Footwear Software from AM Hardware Companies
4.3 Tackling the Data Capturing Challenge
4.3.1 Foot Data 3D Capturing Hardware and Software
4.3.2 Stepping Online
4.4 Ten-year Forecast for Footwear 3D Data Capturing Services, Hardware and Software
4.5 Key Points from This Chapter
Chapter Five: The Applications Driving Additive Manufacturing Adoption in the Footwear Industry
5.1 Evolution and Outlook of Footwear 3D Printing Applications
5.1.1 Key Technological Investments
5.1.1.1 adidas
5.1.1.2 Nike
5.1.1.3 New Balance
5.1.1.4 Under Armour
5.1.1.5 Reebok
5.1.2 Key Financial Investments
5.2 Evolution and Outlook of Footwear 3D Printing Applications
5.3 Future Developments for Footwear AM Applications and Production
5.3.1 Ten-year Forecast of Footwear AM Revenue Opportunities by Application Type
5.3.1.1 Ten-year Forecast of Footwear Final Parts Opportunities
5.4 Geographic Distribution of Key Applications Revenues in Footwear Additive
Manufacturing
5.4.1 Geographic Analysis of Footwear AM Final Parts
5.4.2 Geographic Analysis of Footwear 3D-Printed Prototypes
5.4.3 Geographic Analysis of 3D-printed Footwear Production Tools (Molds/Lasts/Patterns)
5.5 End-use-part-specific Ten-year Forecast for Footwear AM
5.5.1 Analysis of End-use Footwear Parts Demand
5.5.2 Analysis of Revenue Opportunities for 3D-printed Midsoles
5.5.3 Analysis of Revenue Opportunities for 3D-printed Insoles
5.5.4 Analysis of Revenue Opportunities for 3D-printed Uppers (including Outsoles and
Heels)
5.6 Key Points from This Chapter
About SmarTech Analysis
About the Analyst
Acronyms and Abbreviations Used In this Report
List of Exhibits
Exhibit 1-1: Drivers for AM in Footwear
Exhibit 1-2: Total Revenues ($USM) Associated with AM in Footwear Production 2020-2030
Exhibit 1-3: Expected CAGR for all Footwear AM Segments 2020-2030
Exhibit 1-4: AM-industry Specific Revenues Associated with Footwear Production ($USM)
2020-2030
Exhibit 1-5: CAGR for AM-industry Specific Revenue Segments in Footwear 2020-2030
Exhibit 2-1: AM Hardware Units Demand in Footwear Manufacturing 2020-2030 by
Technology
Exhibit 2-2: Expected Average Prices of AM Hardware Used in Footwear Manufacturing by
Technology 2020-2030
Exhibit 2-3: AM Hardware Revenues Forecast in Footwear Manufacturing by Technology
2020-2030
Exhibit 2-4: Relevant Photopolymerization Systems for Footwear
Exhibit 2-5: Unit Demand of Vat Photopolymerization HW in Footwear by Price Category
2020-2030
Exhibit 2-6: Vat Photopolymerization Hardware Revenues ($USM) in Footwear 2020-2030
Exhibit 2-7: Footwear Application Sale Trends ($USM) for Vat Photopolymerization Hardware
2020-2030
Exhibit 2-8: Relevant Photopolymerization Systems for Footwear
Exhibit 2-9: Unit Demand of Powder Bed Fusion HW in Footwear by Price Category 2020-
2030
Exhibit 2-10: Powder Bed Fusion Hardware Revenues ($USM) in Footwear by Price Category
2020-2030
Exhibit 2-11: Footwear Application Sales ($USM) Trends for Polymer PBF Hardware 2020-
2030
Exhibit 2-12: Material Extrusion Systems for Footwear Production
Exhibit 2-13: Unit Demand of Material Extrusion Hardware in Footwear by Price Segment
2020 – 2030
Exhibit 2-14: Material Extrusion Hardware Revenues ($USM) in Footwear by Price Category
2020-2030
Exhibit 2-15: Footwear Application Sale ($USM) Trends for Material Extrusion Hardware
Exhibit 2-16: Material Jetting Systems for Footwear
Exhibit 2-17: Unit Demand of Material Jetting HW in Footwear by Price Category 2020 –
2030
Exhibit 2-18: Material Jetting Hardware Revenues ($USM) in Footwear by Price Category
2020 – 2030
Exhibit 2-19: Footwear Applications Trends for Material Jetting Hardware 2020 – 2030
Exhibit 2-20: Total Footwear AM Hardware Revenues ($USM) by Region 2020 – 2030
Exhibit 2-21: High-end Industrial Footwear AM Hardware Revenues ($USM) by Region 2020
– 2030
Exhibit 2-22: Low- to Mid-cost Footwear AM Hardware Revenues ($USM) by Region
Exhibit 2-23: High-end PBF Footwear AM Hardware Sales Trend ($USM) by Region 2020 –
2030
Exhibit 2-24: High-end Industrial Photopolymerization Footwear AM Hardware Sales Trend
($USM) by Region 2020 – 2030
Exhibit 3-1: Materials Demand (Metric Tonnes) in Footwear AM – 2020-2030
Exhibit 3-2: Average Price ($/Kg) of Material Used in Footwear AM, by Material Form Factor
and Technology
Exhibit 3-3: Materials Revenues ($USM) in Footwear AM 2020 – 2030
Exhibit 3-4: Extrusion Materials Revenues ($USM) in Footwear by Application 2020 – 2030
Exhibit 3-5: AM Powder Revenues ($USM) in Footwear by Application 2020 – 2030
Exhibit 3-6: Vat Photopolymers Revenues ($USM) in Footwear by Application 2020 – 2030
Exhibit 3-7: Jet Photopolymers Revenues ($USM) in Footwear by Application 2020 – 2030
Exhibit 3-8: Demand of Extrusion Materials (Metric Tonnes) in Footwear AM 2020 – 2030
Exhibit 3-9: Demand of AM Powders (Metric Tonnes) in Footwear AM 2020 – 2030
Exhibit 3-10: Demand of Vat Photopolymerizable Materials (Metric Tonnes) in Footwear AM
2020-2030
Exhibit 3-11: Jet Photopolymer Material Demand (Metric Tonnes) in Footwear AM 2020 –
2030
Exhibit 3-12: Extrusion Materials Revenues ($USM) in Footwear AM by Geographic Area
2020-2030
Exhibit 3-13: Powder Materials Revenues ($USM) in Footwear AM by Geographic Area 2020-
2030
Exhibit 3-14: Vat Photopolymer Materials Revenues ($USM) in Footwear AM by Geographic
Area 2020–2030
Exhibit 3-15: Jet Photopolymer Materials Revenues ($USM) in Footwear AM by Geographic
Area 2020 – 2030
Exhibit 4-1: Examples of AM Services for Footwear Manufacturing
Exhibit 4-2: AM Services vs. In-house AM Part Production Revenues ($USM) in Footwear
2020-2030
Exhibit 4-3: Revenues from AM Services in Footwear ($USM) 2020-2030
Exhibit 4-4: CAGR of AM Services vs. Internal AM Production in Footwear 2020-2030
Exhibit 4-5: CAGR of Specific AM Applications Segments in AM Services 2020-2030
Exhibit 4-6: Software Products Used in Footwear Design and Additive Manufacturing
Exhibit 4-7: Types of Foot 3D Capturing Devices
Exhibit 4-8: Hardware and Software Revenues ($USM) for Footwear Design and
Customization 2020-2030
Exhibit 4-9: CAGR for Data Capturing and Design Software and Hardware 2020-2030
Exhibit 5-1: Relevant Footwear AM Application Cases Analyzed in this Report
Exhibit 5-2: A Timeline for Past AM Adoption Milestones in the Footwear Industry
Exhibit 5-3: A Timeline for Past and Future Adoption Trends in Footwear AM
Exhibit 5-4: All 3D-Printed Parts Revenues ($USM) in Footwear 2020-2030
Exhibit 5-5: Growth Trends for Footwear 3D Printing Application Revenues ($USM) 2020-
2030
Exhibit 5-6: Revenues ($USM) from 3D-Printed Final Parts in Footwear 2020-2030
Exhibit 5-7: Revenues ($USM) from 3D Printed Prototypes in Footwear 2020-2030
Exhibit 5-8: Revenues ($USM) from 3D Printed Tools in Footwear 2020-2030
Exhibit 5-9: Final Parts Revenues ($USM) in Footwear AM by Geographic Area 2020-2030
Exhibit 5-10: 3D-Printed Prototype Revenues ($USM) in Footwear by Geographic Area 2020-
2030
Exhibit 5-11: 3D-Printed Tools Revenues ($USM) in Footwear by Geographic Area 2020-
2030
Exhibit 5-12: Forecast of Revenues from 3D Printed Final Parts ($USM) in Footwear 2020-
2030
Exhibit 5-13: Expected CAGR by End-use Footwear Part Segment 2020-2030
Exhibit 5-14: Material Demand (Kg) by AM End-use Part Type 2020-2030
Exhibit 5-15: Average 3D Printed End-use Part Weight (Kg) by Part Type 2020-2030
Exhibit 5-16: Average 3D Printed End-use Part Price ($US) by Part Type 2020-2030
Exhibit 5-17: Number 3D Printed End-use Parts by Part Type 2020-2030
Exhibit 5-18: Revenues ($USM) from Midsoles by AM Technology 2020-2030
Exhibit 5-19: Revenues ($USM) from Insoles by AM Technology 2020-2030
Exhibit 5-20: Revenues ($USM) from Uppers by AM Technology 2020-2030
This report provides an in-depth analysis into the revenue opportunities offered by the global footwear segment, reflecting the latest advances in the three key segments where 3D printing technologies are impacting footwear production: prototyping, tooling and final parts. The report also provides SmarTech’s latest ten-year forecasts of footwear parts produced as well as the AM materials consumed to produce them. Other ten-year forecasts in the report are of the AM hardware and printers used for the evolving 3D-printed footwear industry. A breakdown by geography is also included.
While prototyping and tooling continue to be identified as key applications for AM in footwear, the ultimate goal of the industry is to use AM to automate footwear part production. The application analysis in this report thus focuses on the opportunity around final parts, in this report we provide the most accurate data analyses and projections available of the number and revenues associated with 3D printing of midsoles, insoles and uppers for the next ten-year period.
The report also profiles the key manufacturers involved in the 3D-printed footwear revolution including: Carbon, voxeljet, HP, Voxel8, Kings3D, Formlabs, Stratasys, 3D Systems, EOS, Prodways, BASF, ECCO, German RepRap, Adidas, Nike, Reebok, New Balance, Under Armour, Timberland. Extensive interviews with key market innovators and drivers were conducted in order to provide this most up-to-date market scenario.