Summary
この調査レポートは、ポリマーハードウェアと材料需要のきめ細かい分析を通じて、業界の成長と将来について詳細に調査・分析しています。
主な掲載内容(目次より抜粋)
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ポリマーハードウェア
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フォトポリマー樹脂
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熱可塑性粉末、フィラメント、ペレット
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繊維強化ポリマーマトリックス複合材料 3Dプリント
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ポリマー材料ベンチマーク
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ポリマーアディティブマニュファクチャリングのためのポストプロセス
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3Dプリンティングのための生産サービス
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ポリマーアディティブマニュファクチャリングの応用、市場予測
Report Summary
When it comes to history and awareness, polymer additive manufacturing leads the 3D printing industry. The first type of 3D printing to be invented in the 1980s was stereolithography, while thermoplastic filament extrusion holds the most public recognition amongst additive technologies. In fact, IDTechEx finds that demand for polymer materials by mass far exceeds that of metal materials for 3D printing.
Source IDTechEx
With this popularity, the potential for polymer 3D printing to supply custom shoes, personalized prosthetics, or other high-value items has been increasingly explored in the past decade. Yet, actual applications of polymer AM were often restricted to prototyping and one-offs, with the limitations of polymer printing materials and lack of end-user experience preventing more meaningful usage of 3D printing in important sectors. IDTechEx's new report, Polymer Additive Manufacturing 2023-2033: Technology and Market Outlook, finds that polymer 3D printing is moving beyond prototyping to high-value adoption by end-users, which will propel its growth to $21 billion in 2033.
IDTechEx's Polymer Additive Manufacturing 2023-2033 report provides insight into the industry's growth and future through granular analysis of polymer hardware and materials demand. Any company in the polymer 3D printing supply chain or looking to enter the industry will find valuable insights in this report, like materials suppliers, printer manufacturers, service providers, end-users, and more. This report breaks down the hardware market into 10 technology segments and the materials market into 17 segments to create 85 forecast lines across 14 forecasts. The forecasts provide a ten-year outlook for polymer 3D printer installation base, revenue from polymer 3D printer sales, and mass demand and revenue for polymer 3D printing materials.
End-Use Sectors Finding Value in Polymer Additive Manufacturing
The polymer AM market is finding more end-users integrating AM into their supply chain beyond prototyping and one-offs; the question is: what industries do these end-users belong to? Through user interviews, IDTechEx has identified several application areas, such as:
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Automotive
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Consumer Goods
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Medical Devices
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Dentistry
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Aerospace and Defense
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Manufacturing Plants
IDTechEx's analysis extensively discusses these application areas where polymer additive manufacturing is finding higher-volume applications that utilize better performing materials. It is meaningful adoption in all these industries that is encouraging polymer hardware and materials purchases, helping fuel the polymer AM market's multi-billion-dollar growth over the next decade.
Technology Trends and Market Forecasts for Polymer Additive Manufacturing Hardware and Materials
Essential to understanding the evolution of the polymer 3D printing industry is exploring the change from low-cost printing technologies and materials to the slow growth and adoption of innovative polymer printing technologies and materials, from viscous thermosets to carbon fiber composites to foams. IDTechEx presents technical analyses of thirty polymer printing technologies, ranging from the established (i.e. digital light processing, selective laser sintering) to the emerging (i.e. viscous lithography manufacturing, volumetric additive manufacturing); within these analyses, the strengths, weaknesses, opportunities, and threats presented by and to each technology are identified. Similar SWOT and application analyses are provided for 17 different material categories across the main three polymer form factors - thermoplastic filaments, thermoplastic powders, and photopolymer resins. IDTechEx's deep technical exploration of polymer printing technologies and materials will provide readers with the full context surrounding the future development of polymer additive technologies and materials.
These trends, identified using extensive primary and secondary research, have informed IDTechEx's detailed 10-year market forecast for the polymer 3D printing market, which look at polymer 3D printing hardware and materials through eighty-five different forecast lines. The hardware forecasts break the market down by install base and technology type, while the materials forecasts segment the market into polymer form factor and further into polymer material categories. This analysis reveals how polymer hardware and materials sales growth will lead the industry to a $21 billion market size in 2033.
IDTechEx conducted exhaustive primary research with companies positioned throughout the entire 3D printing value chain for key insights into the trends impacting growth to 2033. This includes printer manufacturers, materials suppliers, and service providers. Over 55 company profiles have been included in the report including Stratasys, 3D Systems, EOS, Markforged, Evonik, and Covestro, amongst others. These profiles give insight into the companies leading the industry, their position amongst their competitors, and the opportunities and challenges they face in the future.
Key questions that are answered in this report
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What are the current and emerging polymer printer technology types?
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How do metrics such as price, build speed, build volume and precision vary by technology type?
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What are the strengths and weaknesses of different polymer 3D printing technologies?
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What is the current installed base of polymer 3D printers?
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Who are the main players?
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What are the market shares of those active in the market?
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What are the current and emerging polymer 3D printing materials in 2022?
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What are the market shares of each material class?
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What are the key drivers and restraints of market growth?
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What are the main application areas of polymer additive manufacturing?
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How will sales of different polymer printer types evolve from 2023 to 2033?
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What is the projected demand by mass and annual revenue growth for polymer materials from 2023 to 2033?
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How has COVID-19 positively or negatively impacted the polymer 3D printing industry?
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Table of Contents
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1. |
EXECUTIVE SUMMARY |
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1.1. |
Why adopt 3D printing? |
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1.2. |
Benchmarking study overview: polymer 3D printing technologies |
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1.3. |
IDTechEx's segmentation of polymer 3D printing materials |
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1.4. |
Benchmarking study: polymer feedstock for 3D printing |
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1.5. |
Overview of post-processing techniques for polymer additive manufacturing |
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1.6. |
End-use industry overview for polymer additive manufacturing |
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1.7. |
Polymer 3D printing private funding in 2021 by company type and material type |
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1.8. |
3D printing hardware historic revenue growth |
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1.9. |
Hardware market share for printing processes by company |
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1.10. |
Polymer 3D printing technology segmentation |
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1.11. |
Current market share of polymer AM materials demand - revenue and mass |
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1.12. |
Polymer 3D printing market forecast 2023-2033 |
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1.13. |
3D printing install base by technology |
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1.14. |
Polymer 3D printing technology market share in 2033 |
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1.15. |
Polymer AM materials forecast by feedstock - revenue and mass |
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1.16. |
Polymer materials forecast by feedstock - discussion |
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1.17. |
Polymer AM materials forecast by technology - revenue and mass |
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1.18. |
Polymer materials forecast by technology - discussion |
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1.19. |
Key trends for polymer 3D printing materials |
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1.20. |
Conclusions |
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1.21. |
Company profiles |
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1.22. |
3D printing research at IDTechEx |
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2. |
INTRODUCTION |
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2.1. |
Glossary: common acronyms for reference |
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2.2. |
Scope of report |
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2.3. |
The different types of 3D printing processes |
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2.4. |
Material compatibility across 3D printing technologies |
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2.5. |
Why adopt 3D printing? |
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2.6. |
History of 3D printing: the rise of the hobbyist |
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2.7. |
Business models: selling printers vs parts |
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2.8. |
Consumer vs prosumer vs professional |
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2.9. |
Use patterns and market segmentation |
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2.10. |
Drivers and restraints of growth for 3D printing |
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3. |
POLYMER HARDWARE |
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3.1. |
Polymer 3D printing technologies |
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3.1.1. |
Extrusion: thermoplastic filament |
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3.1.2. |
Extrusion: thermoplastic pellet |
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3.1.3. |
Powder bed fusion: selective laser sintering (SLS) |
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3.1.4. |
Powder bed fusion: multi-jet fusion (MJF) |
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3.1.5. |
Vat photopolymerization: stereolithography (SLA) |
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3.1.6. |
Vat photopolymerization: digital light processing (DLP) |
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3.1.7. |
Material jetting: photopolymer |
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3.2. |
Emerging polymer 3D printing technologies |
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3.2.1. |
Introduction to emerging polymer 3D printing technologies |
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3.2.2. |
Vat photopolymerization: projection micro-stereolithography (PµSL) |
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3.2.3. |
Vat photopolymerization: two photon polymerization (2PP) |
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3.2.4. |
Extrusion: thermoset |
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3.2.5. |
Selective thermoplastic electrophotographic process (STEP) |
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3.2.6. |
Vat photopolymerization: hybrid photosynthesis |
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3.2.7. |
Vat photopolymerization: hot lithography |
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3.2.8. |
High speed material jetting |
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3.2.9. |
Multi-material jetting |
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3.2.10. |
Viscous lithography manufacturing (VLM) |
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3.2.11. |
High speed vat photopolymerization |
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3.2.12. |
Volumetric additive manufacturing |
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3.2.13. |
Volumetric AM - xolography, tomographic 3D printing, computed axial lithography |
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3.2.14. |
Extrusion: high temperature thermoplastic filament |
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3.2.15. |
Extrusion: pressure-controlled |
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3.3. |
Polymer printer benchmarking |
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3.3.1. |
Overview of polymer 3D printing technologies |
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3.3.2. |
Benchmarking: maximum build volume |
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3.3.3. |
Benchmarking: build rate |
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3.3.4. |
Benchmarking: Z resolution |
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3.3.5. |
Benchmarking: XY resolution |
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3.3.6. |
Benchmarking: price vs build volume |
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3.3.7. |
Benchmarking: price vs build rate |
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3.3.8. |
Benchmarking: price vs Z resolution |
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3.3.9. |
Benchmarking: build rate vs build volume |
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3.3.10. |
Benchmarking: build rate vs Z resolution |
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3.3.11. |
Comparison study: polymer 3D printing technologies overview |
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4. |
PHOTOPOLYMER RESINS |
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4.1. |
Introduction to photopolymer resins |
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4.2. |
Chemistry of photopolymer resins |
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4.3. |
Resins - advantages and disadvantages |
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4.4. |
General purpose resins - overview |
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4.5. |
General purpose resins - applications |
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4.6. |
Engineering resins - overview |
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4.7. |
Engineering resins - applications |
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4.8. |
Flexible resins - overview |
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4.9. |
Flexible resins - applications |
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4.10. |
Flexible resins - footwear |
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4.11. |
Castable resins - overview |
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4.12. |
Castable resins - applications |
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4.13. |
Healthcare resins - overview |
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4.14. |
Healthcare resins - applications |
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4.15. |
Extrusion resins - overview |
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4.16. |
Extrusion resins - applications |
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4.17. |
Viscous photosensitive resins |
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4.18. |
Photosensitive resin suppliers |
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5. |
THERMOPLASTIC POWDERS |
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5.1. |
Introduction to thermoplastic powders |
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5.2. |
Engineering (nylon) powder - overview |
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5.3. |
Engineering (nylon) powder - applications |
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5.4. |
Flexible powder - overview |
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5.5. |
Flexible powder - applications |
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5.6. |
Composite powder - overview |
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5.7. |
Composite powder - applications |
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5.8. |
High temperature powder - overview |
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5.9. |
High temperature powder - applications |
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5.10. |
Engineering (other) powder - overview |
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5.11. |
Engineering (other) powder - applications |
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5.12. |
Thermoplastic powders: post-processing |
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5.13. |
Thermoplastic powder suppliers |
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6. |
THERMOPLASTIC FILAMENTS |
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6.1. |
Introduction to thermoplastic filaments |
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6.2. |
General purpose filaments - overview |
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6.3. |
General purpose filaments - applications |
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6.4. |
Engineering filaments - overview |
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6.5. |
Engineering filaments - applications |
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6.6. |
Flexible filaments - overview |
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6.7. |
Flexible filaments - applications |
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6.8. |
Reinforced filaments - overview |
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6.9. |
Reinforced filaments - applications |
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