This is the fourth annual market study on Polymer Additive Manufacturing Markets. The report looks at the global economic impact of polymer 3D printing including, for the first time, a deep analysis of the opportunities presented by revenues associated with 3D printed parts. Driven in the long term by massive opportunities in direct AM production, the analyst now expects polymer 3D printing to generate as much as $11.7 billion in 2020 including sales generated by polymer AM hardware and all associated material families.
The last two years saw the fulfillment of many promises in the industrialization of polymer additive manufacturing, as well as many challenges still left to face for the industry. Technologies continue to move forward in various ways - especially in terms of end-to-end workflow automation and optimization. Some of the most significant progress and accomplishments in polymer additive manufacturing markets have been registered in material science and development/optimization of new materials for current technologies.
Additive manufacturing’s value proposition is clearest within its applications. For this report, the analyst has developed a new model that takes into consideration multiple variable - including average part weight and cost – and data collected through the research conducted in several recent vertical segment reports focusing on automotive, aerospace and consumer products among others, in order to assess the revenues or revenue-equivalents of 3D printed parts - including prototypes, molds/casts, tools and directly 3D printed final parts.
In this report we present all the key revenue categories considered in this report. Hardware is divided into four main hardware families currently processing polymers, with photopolymerization now expected to emerge as the primary revenue opportunity. Materials are subdivided into technology and/or form factors, with photopolymers emerging as the primary revenue opportunity at the end of the forecast period. Finally, parts are calculated as a complex function of material consumption and are subdivided into vertical adoption segments, with service bureaus representing the primary revenue stream throughout the forecast period.
Table of Contents
Chapter One: Market Evolution in Polymer and Thermoplastic 3D Printing to Support Mass Production
1.1 Applications Driving the Past, Present, and Future of Polymer Additive Manufacturing
1.1.1 A Brief Explanation of Methodology
1.2 Polymer 3D Printing Technologies Readying for Mass Production
1.2.1 How Key AM Technologies Support High Throughput Manufacturing
1.2.1.1 Polymer Powder Bed Fusion
1.2.1.2 Vat Photopolymerization
1.2.1.3 Material Extrusion
1.2.1.4 Material Jetting
1.2.1.5 Binder Jetting
1.2.2 Cross-Segment Market Drivers for Polymer Printing in Professional Environments
1.2.3 Overall Market Landscape and Ten-year Forecast for Polymer AM Hardware Technologies
1.3 High-growth Applications and Markets in Polymer Printing in the Next Decade
1.3.1 Polymer 3D Printing in Healthcare Markets Driven by Dental Industry Adoption
1.3.2 Aerospace Additive Manufacturing Applications Focus on Cabin Elements Production
1.3.3 Automotive 3D Printing with Polymers Moving into Large Batch Serial Manufacturing with New Materials
1.4 Key Points from This Chapter
Chapter Two: Current State of Polymer AM Technologies
2.1 Polymer PBF Taking the Lead in Production and Redefining the Market Landscape and Dynamics
2.1.1 Comparing Laser Sintering and Thermal Inkjet Methods (MJF/HSS vs. SLS)
2.1.2 Evolutionary Trends in Polymer PBF Process
2.1.2.1 Higher Productivity SLS Systems
2.1.2.2 Lower Cost Industrial-grade Systems
2.1.2.3 Low-cost SLS Systems
2.1.2.4 High Performance Materials
2.1.3 PBF Post Processing Automation Efforts
2.1.4 Future Technical Evolution in Polymer-based Powder Bed Fusion Printing
2.1.4.1 Multi-laser Manufacturing Oriented Systems (EOS)
2.1.4.2 Laser-head Optimization Efforts
2.1.4.3 Multi-material Powder Bed Fusion Printing (AeroSint)
2.1.4.4 Efforts to Integrate Color Printing Solutions
2.1.4.5 Current and Forecasted Polymer Powder Bed Fusion 3D Printing Hardware Opportunities 2020-2030
2.1.5 Analysis of Leading Competitive Stakeholders in Polymer Powder Bed Fusion Hardware Market
2.1.5.1 EOS
2.1.5.2 HP Inc.
2.1.5.3 3D Systems
2.1.5.4 Farsoon
2.1.5.5 Prodways
2.5.1.6 voxeljet
2.2 Vat Photopolymerization Moving Toward Final Parts Production
2.2.1 Technical Evolution of Vat Photopolymerization 3D Printing to Advance Adoption in New Areas
2.2.1.1 Large Format SLA Systems
2.2.1.2 Layerless High Productivity Systems
2.2.1.3 Traditional DLP Systems Are Alive and Well but for How Much Longer?
2.2.1.4 Low-cost SLA
2.2.2 Future Evolutionary Trends for Vat Photopolymerization Processes
2.2.2.1 Two-Photon Polymerization as a Viable Commercial Opportunity
2.2.2.2 Volumetric 3D Printing Approaches
2.2.3 Automated Post Processing and Materials Management
2.2.4 Global Photopolymerization Hardware Market Landscape and Dynamics in 2020
2.2.4.1 Current and Forecasted Vat Photopolymerization 3D Printing Hardware Opportunities
2.2.5 Analysis of Leading Competitive Entities in Vat Photopolymerization 3D Printing
2.2.5.1 3D Systems
2.2.5.2 Formlabs
2.2.5.3 Carbon
2.2.5.4 EnvisionTEC
2.2.5.5 UnionTech
2.2.5.6 Shining
2.3 Global Extrusion Hardware Opens Up for New Production Opportunities
2.3.1 Classic Approaches to Material Extrusion 3D Printing and Related Market Trajectories
2.3.1.1 Swarm Manufacturing Cells
2.3.1.2 In-Situ Thermal Manipulation for Improved Microstructure
2.3.2 Next-Generation Material Extrusion Concepts to Expand Applications and Adoption in Production
2.3.3 Next-Generation Material Extrusion Concepts to Expand Applications and Adoption in Production
2.3.3.1 Fast Deposition, Large Format Thermoplastic and Composite Material Extrusion
2.3.3.2 Robotic Integration for Multi-axis Extrusion
2.3.4 Global Filament Extrusion Hardware Market Landscape and Dynamics 2019 – 2030
2.3.4.1 Current and Forecasted Thermoplastic Material Extrusion 3D Printing Hardware Opportunities
2.3.5 Analysis of Leading Competitive Entities in Material Extrusion Printing
2.3.5.1 Stratasys
2.3.5.2 BigRep
2.3.5.3 Essentium
2.3.5.4 Ingersoll
2.3.5.5 Ultimaker
2.3.5.6 Roboze
2.4 Polymer Jetting and Jetting Based Additive Manufacturing Market Evolution
2.4.1 Technical Developments in Material Jetting-based Printing to Advance Adoption Beyond Prototyping
2.4.2 Inkjet Technology Evolution to Support High-volume Manufacturing and High-performance Materials in Material Jetting
2.4.3 Polymer Materials Jetting Hardware Market Dynamics and Landscape
2.4.4 Analysis of Key Entities in Material Jetting Markets
2.4.4.1 Stratasys
2.4.4.2 3D Systems
2.4.4.3 Mimaki
2.4.4.4 Xaar
2.5 Key Points from This Chapter
Chapter Three: Market Landscape and Evolution for Photopolymer and Thermoplastic 3D Printing Materials
3.1 Overview of Print Materials Market for Powder Bed Fusion 3D Printing
3.1.1 Established Powder Bed Fusion Thermoplastics and Polymers
3.1.1.1 Neat Polyamides and Composite Polyamide Materials (Nylons)
3.1.1.2 PEEK and PEKK
3.1.2 Emerging Opportunities in Thermoplastics and Polymers for Powder Bed Fusion
3.1.2.1 TPU and Elastomeric Polymers
3.1.2.2 Semicrystalline Polymers – Polypropylene and Polyethylene, and High-Performance Semicrystalline Thermoplastics
3.1.3 Polymer Powder Bed Fusion Materials Market Sizing and Opportunities
3.1.4 Key Entities in the Polymer AM Powder Materials Market
3.1.4.1 Evonik
3.1.4.2 Arkema
3.1.4.3 BASF
3.1.4.4 Lehmann & Voss
3.1.4.5 Solvay
3.2 Overview of Vat and Jet Photopolymerization 3D Printing Materials Market
3.2.1 Future Development Trends in Vat Photopolymerization Resin Materials
3.2.2 The Market for Material Jetting Photopolymers
3.2.3 Current and Future Photopolymer 3D Printing Material Market Opportunities
3.2.4 Key Entities in the AM Photopolymer Materials Market
3.2.4.1 DSM Somos (Royal DSM)
3.2.4.2 Sartomer (Arkema)
3.2.4.3 DeltaMed and Prodways
3.2.4.4 Henkel
3.3 Overview of Print Materials Market for Professional Extrusion Printing
3.3.1 Common Thermoplastics Used in for Material Extrusion
3.3.1.1 ABS and PLA
3.3.1.2 Nylon/Polyamide
3.3.1.3 Other Amorphous Thermoplastics – Polycarbonate, ASA, and TPU
3.3.2 Emerging Thermoplastic Material Opportunities in Material Extrusion
3.3.2.1 Opportunities in Amorphous Thermoplastics – PVC and PEI
3.3.2.2 Opportunities in Semicrystalline Thermoplastics – PAEK Polymers, Polyethylene, and Polypropylene
3.3.2.3 Thermoplastic Composites Utilizing Material Extrusion
3.3.3 Market Opportunities and Sizing for Material Extrusion 3D Printing Materials
3.3.4 Key Entities in the Thermoplastic Extrusion Materials Market
3.3.4.1 BASF
3.3.4.2 SABIC
3.3.4.3 Solvay
3.3.4.4 Mitsubishi Chemical Performance Polymers
3.3.4.5 Covestro
3.4 Key Points from This Chapter
Chapter Four: From Polymer Materials to Vertical AM Applications
4.1 Polymer 3D Printing in Healthcare Markets – Printing Revolutionizing Treatments, Diagnostics, and Workflows
4.2 Aerospace Applications for Polymer 3D Printing Moving from Prototypes to Cabin Elements
4.3 Automotive 3D Printing with Polymers Now Targeting Large Batch Applications
4.4 Consumer Product Industries are Readying to Embrace Polymer 3D Printing for Production
4.5 AM Service Bureaus Cater to Booming Overall Polymer 3D Printing Demand
4.6 Review and Forecast of Major Application Areas and End User Segments by Technology-Specific Material Cross References
4.6.1 Polymer Powder Bed Fusion Markets to Remain Service-Bureau-Centric
4.6.2 Low-cost Extrusion Expanding Extrudable Thermoplastics Demand for Prototyping, Large Format Production Farther Away
4.6.3 Widespread Adoption in the Dental Segment Marks a Turning Point for Vat Photopolymer Demand
4.6.4 Material Jetting
4.7 Key Points from This Chapter
Chapter Five: Polymer 3D-printed Part Opportunities in Adoption Verticals Moving from Prototypes to Batch Production
5.1 Polymer 3D Printing Application Opportunities in Healthcare Segments
5.1.1 Medical
5.1.1.1 Models and Devices
5.1.1.2 Implants and Prosthetics/Orthotics
5.1.1.3 Forecasts and Key Indicators for Medical 3D Printing Applications
5.1.2 Dental
5.1.2.1 Dental Models
5.1.2.2 Temporaries and Permanent Implants
5.1.2.3 Surgical Guides and Production Tools
5.1.2.4 Forecasts and Key Indicators for Dental 3D Printing Applications
5.2 Polymer 3D Printing Application Opportunities in Aerospace
5.2.1 Tooling and Prototyping in Aerospace
5.2.2 3D Printing of Final Aerospace Parts
5.2.3 Forecast and Key Trends for 3D-Printed Parts in Aerospace AM
5.3 Polymer 3D Printing Application Opportunities in Automotive
5.3.1 Tooling and Prototyping in Automotive
5.3.2 Polymer 3D Printing for Automotive Final Part Production
5.3.3 Forecast and Key Trend Indicators for Polymer 3D Printed Automotive Parts
5.4 Polymer 3D Printing Application Opportunities in Consumer Businesses
5.4.1 Polymer 3D Printing for Eyewear Industry Applications
5.4.2 Polymer 3D Printing for Footwear Industry Applications
5.4.3 Polymer 3D Printing for Jewelry Industry Applications
5.4.4 Forecast of Polymer 3D Printed Parts Associated Revenues in Consumer Products and Jewelry
5.5 Polymer 3D Printing Application Opportunities for AM Service Bureaus and Other Industrial Segments
5.6 Key Points from This Chapter
About the Analyst
Acronyms and Abbreviations Used In this Report
List of Exhibits
Exhibit 1-1: Global Polymer AM Revenues ($USM) by Hardware, Material and Application Subsegment
Exhibit 1-2: Comparison Between Polymer AM Revenue Segments ($USM) 2019 – 2030(e)
Exhibit 1-3: Forecast of Polymer AM Revenues ($USM) and Year-on-Year Growth Rate 2019-2030(e)
Exhibit 1-4: Expected CAGR for Each Key Segment and Subsegment in Polymer AM
Exhibit 1-5: Illustration of Cross Segment Market Drivers for Polymer 3D Printing
Exhibit 1-6: Total Global Polymer 3D Printing Hardware Revenues by Technology Group, 2020 – 2030
Exhibit 1-7: Total Global Polymer 3D Printing Hardware Unit Sales by Technology Group, 2020-2030
Exhibit 1-8: Total Global Polymer 3D Printer Unit Sales (000s), all Technologies, by Industry, 2019-2030(e)
Exhibit 1-9: Total Global Polymer 3D Printer Revenues, all Technologies, by Industry, 2019-2030(e)
Exhibit 1-10: Total Global Polymer 3D Printer Material Shipments, all Polymer Material Groups, by Industry, 2019-2030(e)
Exhibit 1-11: Total Global Polymer 3D Printer Material Revenues, all Polymer Material Groups, by Industry, 2019-2030(e)
Exhibit 2-1: Total Global Powder Bed Fusion 3D Printing Market Opportunities, by Category, 2019-2030(e)
Exhibit 2-2: Feature Comparison for Types of Polymer Powder Bed Fusion Hardware
Exhibit 2-3: Average Sales Price Trends in Powder Bed Fusion 3D Printing in Professional Settings, by Printer Classification, 2019-2030
Exhibit 2-4: Total Global Powder Bed Fusion 3D Printer Unit Sales, by System Price Segment, 2019-2030(e)
Exhibit 2-5: Total Global Powder Bed Fusion 3D Printer Revenues, by System Segment, 2019-2030(e)
Exhibit 2-6: Forecasted PBF Hardware Revenues YoY Growth 2019-2030(e)
Exhibit 2-7: Powder Bed Fusion 3D Printer Revenues CAGR, by System Segment, 2019-2030(e)
Exhibit 2-8: Total Global Vat Photopolymerization 3D Printing Market Opportunities 2019-2030(e)
Exhibit 2-9: Average Sales Price ($US) Trends in Vat Photopolymerization 3D Printing in Professional Settings, by Printer Classification, 2019-2030
Exhibit 2-10: Total Global Vat Photopolymerization 3D Printer Unit Sales, by System Segment, 2019-2030
Exhibit 2-11: Professional Vat Photopolymerization vs. Layerless Vat Photopolymerization 3D Printer Unit Sales, 2019-2030
Exhibit 2-12: Total Global Vat Photopolymerization 3D Printer Revenues ($USM), by System Segment, 2019-2030(e)
Exhibit 2-13: Forecasted Vat Photopolymerization Hardware Revenues YoY Growth 2019-2030(e)
Exhibit 2-14: Forecasted Vat Photopolymerization 3D Printer Revenues CAGR, by System Segment, 2019-2030(e)
Exhibit 2-15 Total Global Material Extrusion 3D Printing Installations in Professional Settings, by System Classification, 2019-2030(e)
Exhibit 2-16: Illustration of Material Extrusion Market Trajectories
Exhibit 2-17: Identified 5-Axis Material Extrusion 3D Printers
Exhibit 2-18: Average Sales Price Comparison of Material Extrusion 3D Printing in Professional Settings, by End User Industry, 2019-2030
Exhibit 2-19: Total Global Material Extrusion 3D Printer Unit Sales, by System Segment, 2019-2030(e)
Exhibit 2-20: Total Global Material Extrusion 3D Printer Revenues, by System Segment, 2019-2030(e)
Exhibit 2-21: Total Global Polymer Material Jetting 3D Printing Opportunities and Expected YoY Growth, by Category, 2019-2030(e)
Exhibit 2-22: Polymer Material Jetting 3D Printing Hardware Demand in Professional Settings, 2019-2030(e)
Exhibit 2-23: Average Sales Price Trends in Material Jetting 3D Printing Hardware in Professional Settings, 2019-2030(e)
Exhibit 2-24: Total Global Material Jetting 3D Printing Hardware Revenues in Professional Settings 2019-2030(e)
Exhibit 3-1: Total AM Material Shipments (Metric Tonnes), by Material Family 2019-2030(e)
Exhibit 3-2: Worldwide Polymer 3D Printing Powder Material Shipments, by Polymer Group, 2019-2030(e)
Exhibit 3-3: Total Global Polymer Powder Bed Fusion Material Revenues, by Polymer Group, 2019-2030(e)
Exhibit 3-4: Polymer Powder Bed Fusion Material Average Price per Kg, by Polymer Group, 2019-2030(e)
Exhibit 3-5: Total Global Polymer Powder Bed Fusion Material Revenues, and YoY Growth, 2019-2030(e)
Exhibit 3-6: Total Global Polymer Powder Bed Fusion Material Revenues CAGR, by Material Family, 2019-2030(e)
Exhibit 3-7: Total Photopolymer Shipments (in Metric Tonnes) by Material Type for Vat Photopolymerization and Material Jetting Photopolymerization Technologies 2019 – 2030(e)
Exhibit 3-8: Comparison Between Vat Photopolymer and Jet Photopolymer Shipments (Metric Tonnes) 2019 – 2030(e)
Exhibit 3-9: Average Price per Kg of Primary Photopolymer Resin Materials, by Category, 2019-2030(e)
Exhibit 3-10: Total Global Photopolymer 3D Print Material Revenues, by Category, 2019-2030(e)
Exhibit 3-11: Expected Photopolymer 3D Print Material YoY Growth, all Materials, 2019-2030(e)
Exhibit 3-12: Total Global Polymer Powder Bed Fusion Material Revenues CAGR, by Material Family, 2019-2030(e)
Exhibit 3-13: Leading Industrial Filament Manufacturers/Suppliers
Exhibit 3-14: Total Global Projected Material Extrusion 3D Printing Material Shipments, by Primary Form Factor, 2019-2030(e)
Exhibit 3-15: Comparison Between Yearly Demand of Filament and Pellet Based Materials (Metric Tonnes) in Extrusion 3D Printing, 2019-2030(e)
Exhibit 3-16: Most Common ABS Filament Additives Classes Used and Their Strategic Implications
Exhibit 3-17: Comparison Between Filament and Pellet Material Extrusion Material Revenues, by Primary Form Factor, 2019-2030(e)
Exhibit 3-18: Total Global Material Extrusion Material Revenues, by Primary Form Factor, 2019-2030(e)
Exhibit 3-19: Total Global Filament-based Material Extrusion 3D Printing Material Revenues, by Category, 2019-2030(e)
Exhibit 3-20: Total Global Pellet-based Material Extrusion 3D Printing Material Revenues, by Category, 2019-2030(e)
Exhibit 3-21: Total Material Extrusion 3D Printing Material Revenues, all Materials, by Region, 2019-2030(e)
Exhibit 3-22: Total Material Extrusion 3D Printing Material Revenues CAGR, by Material Family, 2019-2030(e)
Exhibit 4-1: Global Polymer AM Hardware Unit Demand (in Thousands of Units) by Vertical Application Segment 2019-2030(e)
Exhibit 4-2: Global Polymer AM Hardware Revenues ($USM) by Vertical Application Segment 2019-2030(e)
Exhibit 4-3: Global Polymer AM Hardware Revenues CAGR by Vertical Application Segment 2019-2030(e)
Exhibit 4-4: Global Polymer AM Material Shipments (in Metric Tonnes) by Vertical Application Segment 2019-2030(e)
Exhibit 4-5: Global Polymer AM Material Shipments (in Metric Tonnes) by Vertical Application Segment 2019-2030(e)
Exhibit 4-6: Global Polymer AM Material Revenue CAGR by Vertical Application Segment 2019-2030(e)
Exhibit 4-7: Total Polymer 3D Printer Unit Sales in Medical Markets, by Technology Group, 2019-2030(e)
Exhibit 4-8: Total Polymer 3D Printer Revenues in Medical Markets, by Technology Group, 2019-2030(e)
Exhibit 4-9: Total Polymer 3D Printer Unit Sales in Dental Markets, by Technology Group, 2019-2030(e)
Exhibit 4-10: Total Polymer 3D Printer Revenues in Dental Markets, by Technology Group, 2019-2030(e)
Exhibit 4-11: Total Polymer 3D Printing Material Shipments in Medical Markets, by Material Group, 2019-2030(e)
Exhibit 4-12: Total Polymer 3D Printing Material Revenues in Medical Markets, by Material Group, 2019-2030(e)
Exhibit 4-13: Total Polymer 3D Printing Material Shipments in Dental Markets, by Material Group, 2019-2030(e)
Exhibit 4-14: Total Polymer 3D Printing Material Revenues in Dental Markets, by Material Group, 2019-2030(e)
Exhibit 4-15: Total Polymer 3D Printer Unit Sales in Aerospace, by Technology Group, 2019-2030(e)
Exhibit 4-16: Total Polymer 3D Printer Revenues in Aerospace, by Technology Group, 2019-2030(e)
Exhibit 4-17: Total Polymer 3D Printing Material Shipments in Aerospace, by Material Group, 2019-2030(e)
Exhibit 4-18: Total Polymer 3D Printing Material Revenues in Aerospace, by Material Group, 2019-2030(e)
Exhibit 4-19: Total Polymer 3D Printer Unit Sales in Automotive, by Technology Group, 2019-2030(e)
Exhibit 4-20: Total Polymer 3D Printer Revenues in Automotive, by Technology Group, 2019-2030(e)
Exhibit 4-21: Total Polymer 3D Printing Material Shipments in Automotive, by Material Group, 2019-2030(e)
Exhibit 4-22: Total Polymer 3D Printing Material Revenues in Automotive, by Material Group, 2019-2030(e)
Exhibit 4-23: Total Polymer 3D Printer Unit Sales in Consumer Products and Jewelry, by Technology Group, 2019-2030(e)
Exhibit 4-24: Total Polymer 3D Printer Revenues in Consumer Products and Jewelry, by Technology Group, 2019-2030(e)
Exhibit 4-25: Total Polymer 3D Printing Material Shipments (Metric Tonnes) in Consumer Products and Jewelry, by Material Group, 2019-2030(e)
Exhibit 4-26: Total Polymer 3D Printing Material Revenues in Consumer Products and Jewelry, by Material Group, 2019-2030(e)
Exhibit 4-27: Total Polymer 3D Printer Unit Sales in AM Service Bureaus (including Energy and Other Industries), by Technology Group, 2019-2030(e)
Exhibit 4-28: Total Polymer 3D Printer Revenues in AM Service Bureaus (including Energy and Other Industries), by Technology Group, 2019-2030(e)
Exhibit 4-29: Total Polymer 3D Printing Material Shipments (Metric Tonnes) in AM Service Bureaus (including Energy and Other Industries), by Material Group, 2019-2030(e)
Exhibit 4-30: Total Polymer 3D Printing Material Revenues in AM Service Bureaus (including Energy and Other Industries), by Material Group, 2019-2030(e)
Exhibit 4-31: Total Projected Polymer Powder Bed Fusion Material Shipments, all Polymer Groups, by Industry, 2019-2030(e)
Exhibit 4-32: Total Projected Polymer Powder Bed Fusion Material Revenues, all Polymer Groups, by Industry, 2019-2030(e)
Exhibit 4-33: Summary of Applications Influencing Market Growth in Material Extrusion 3D Printing
Exhibit 4-34: Global Material Extrusion 3D Printing Material Shipments, all Polymer and Plastic Materials and Composites, by End User Segment, 2019-2030(e)
Exhibit 4-35: Global Material Extrusion 3D Printing Material Revenues, all Polymer and Plastic Materials and Composites, by End User Segment, 2014-2027(e)
Exhibit 4-36: Summary of Applications Influencing Market Growth in Photopolymer 3D Printing Technologies
Exhibit 4-37: Total Global 3D Printing Photopolymer Shipments (Vat Photopolymerization Only), all Material Classes, by Industry, 2019-2030(e)
Exhibit 4-38: Total Global 3D Printing Photopolymer Revenues (Vat Photopolymerization Only), all Material Classes, by Industry, 2019-2030(e)
Exhibit 4-39: Total Material Jetting Photopolymer Shipments, all Categories, by Industry, 2019-2030(e)
Exhibit 4-40: Total Material Jetting Photopolymer Revenues, all Categories, by Industry, 2019-2030(e)
Exhibit 5-1: Revenues Associated with Polymer 3D Printed Parts by Vertical Adoption Segment 2019–2030(e)
Exhibit 5-2: Year-on-year Growth Rate of Yearly Revenues from 3D Printed Parts 2019–2030(e)
Exhibit 5-3: CAGR of 3D Printed Parts Revenues by Vertical Adoption Segment 2019–2030(e)
Exhibit 5-4: Yearly Revenues ($USM) Associated with Polymer 3D Printed Medical Parts by Part Type 2019-2030(e)
Exhibit 5-5: Average Weight (Kg) of Polymer 3D Printed Medical Parts by Part Type 2019-2030(e)
Exhibit 5-6: Average Price ($US) of Polymer 3D Printed Medical Parts by Part Type 2019-2030(e)
Exhibit 5-7: Yearly Revenues ($USM) Associated with Polymer 3D Printed Dental Parts by Part Type 2019-2030(e)
Exhibit 5-8: Average Weight (Kg) of Polymer 3D Printed Dental Parts by Part Type 2019-2030(e)
Exhibit 5-9: Average Price ($) of Polymer 3D Printed Medical Parts by Part Type 2019-2030(e)
Exhibit 5-10: Evolution in Polymer 3D Printing Applications in Aerospace
Exhibit 5-11: Yearly Revenues ($USM) Associated with Polymer 3D Printed Parts for Aerospace by Part Type 2019-2030(e)
Exhibit 5-12: Average Weight (Kg) of Polymer 3D Printed Parts for Aerospace by Part Type 2019-2030(e)
Exhibit 5-13: Average Price ($) of Polymer 3D Printed Parts for Aerospace by Part Type 2019-2030(e)
Exhibit 5-14: Yearly Revenues ($USM) Associated with Polymer 3D Printed Parts for Automotive by Part Type 2019-2030(e)
Exhibit 5-15: Average Weight (Kg) of Polymer 3D Printed Parts for Automotive by Part Type 2019-2030(e)
Exhibit 5-16: Average Price ($) of Polymer 3D Printed Parts for Automotive by Part Type, 2019-2030
Exhibit 5-17: Yearly Revenues ($USM) Associated with Polymer 3D Printed Parts for Consumer Product Industries (including Jewelry) by Part Type 2019-2030(e) 248
Exhibit 5-18: Average Weight (Kg) of Polymer 3D Printed Parts for Consumer Products and Jewelry Industries by Part Type 2019-2030(e)
Exhibit 5-19: Average Price ($US) of Polymer 3D Printed Parts for Consumer Products and Jewelry Industries by Part Type 2019-2030(e)
Exhibit 5-20: Yearly Revenues ($USM) Associated with Polymer 3D Printed Parts for Service Bureaus (including Energy and Other Industries) by Part Type 2019-2030(e)
Exhibit 5-21: Average Weight (Kg) of Polymer 3D Printed Parts for Consumer Products and Jewelry Industries by Part Type 2019-2030(e)
Exhibit 5-22: Average Price (Kg) of Polymer 3D Printed Parts for Consumer Products and Jewelry Industries by Part Type 2019-2030(e)
Samples
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Companies Mentioned (Partial List)
A selection of companies mentioned in this report includes, but is not limited to:
- 3D Systems
- Arkema
- BASF
- BigRep
- Carbon
- Covestro
- DSM Somos (Royal DSM)
- DeltaMed
- EOS
- EnvisionTEC
- Essentium
- Evonik
- Farsoon
- Formlabs
- HP Inc.
- Henkel
- Ingersoll
- Lehmann & Voss
- Mimaki
- Mitsubishi
- Prodways
- Roboze
- SABIC
- Sartomer (Arkema)
- Shining
- Solvay
- Stratasys
- Ultimaker
- UnionTech
- Xaar
- voxeljet