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市場調查報告書

3D列印材料的全球市場(2020-2030):COVID版

3D Printed Materials 2020-2030: COVID Edition

出版商 IDTechEx Ltd. 商品編碼 963403
出版日期 內容資訊 英文 132 Slides
商品交期: 最快1-2個工作天內
價格
3D列印材料的全球市場(2020-2030):COVID版 3D Printed Materials 2020-2030: COVID Edition
出版日期: 2020年10月09日內容資訊: 英文 132 Slides
簡介

到2030年,全球3D列印材料市場預計將增長到184億美元。3D列印技術的功能取決於用於各種列印過程的材料的可用性,並且可用材料持續多樣化以滿足最終用戶的需求。

本報告調查了全球3D列印材料市場,並概述了市場和技術,概述了主要材料,主要供應商,特徵,優缺點,應用/介紹示例,新材料的發展趨勢以及出貨量。它總結了數量和收入預測,按物料,競爭環境,主要公司的概況等細分。

第1章執行摘要

第2章簡介

第3章光敏樹脂

  • 光敏樹脂
  • 供應商
  • 光敏聚合物零件的應用
  • 光敏聚合物助聽器
  • 含光敏聚合物的珠寶設計
  • 注塑模具用光敏聚合物
  • 用於消費品的光敏聚合物
  • 光敏聚合物:3D列印光學

第4章熱塑性粉末

  • 熱塑性粉末
  • 供應商
  • 齒輪,鉸鏈,互鎖零件
  • 藝術
  • 後處理

第5章熱塑性長絲

  • 熱塑性長絲
  • 材料概述
  • 供應商
  • 採購
  • 替代:聚丙烯(聚丙烯)/彈性體
  • 新興材料:熱塑性長絲的填料
  • 新興材料:金屬PLA燈絲
  • 高溫熱塑性長絲顆粒
  • 高溫熱塑性塑料供應商
  • 高溫熱塑性材料
  • SWOT分析:分離材料與可溶材料
  • 熱塑性長絲:精密工程
  • 熱塑性燈絲:原型製作
  • 熱塑性燈絲:備件
  • 熱塑性細絲:愛好
  • 熱塑性細絲:垂直銷

第6章複合材料

  • 複合熱塑性長絲
  • 複合熱塑性長絲供應商
  • 複合熱塑性長絲:模具
  • 複合熱塑性長絲:更輕

第7章金屬粉末

  • 粉末形式要求
  • 噴射水或氣體
  • 等離子噴霧
  • 電化學噴霧
  • 粉末製造技術評估
  • 支持材料
  • 採購增材製造金屬粉末
  • 熔化後的金屬粉末床
  • 使用金屬粉末時的障礙/限制
  • 合金/材料特性
  • 鋁合金
  • 316L不袗
  • 鎳合金:Inconel 718
  • 鈦合金

第8章其他金屬原料

  • 金屬絲原料
  • 金屬+聚合物絲
  • 金屬填充的熱塑性長絲:巴斯夫Ultrafuse 316LX
  • 金屬+感光樹脂

第9章其他材料

  • 沙/粘合劑
  • 砂/粘合劑:熔模鑄造
  • 陶瓷粉/光敏樹脂
  • 陶瓷:牙科/醫療零件
  • 陶瓷灰泥+粘合劑
  • 陶瓷粉/光敏樹脂
  • 紙張:全彩色型號

第10章新材料

  • 用於3D列印的新型合金
  • 鎢粉/納米顆粒
  • 玻璃
  • 4D列印材料

第11章市場分析

  • 感光樹脂的分類
  • 熱塑性長絲的分類
  • 熱塑性長絲:消費者分類
  • 各種材料的收益佔有率

第12章市場預測

  • 介紹預測方法/調查結果
  • 3DP耗材
  • 金屬與非金屬
  • 光敏聚合物
  • 熱塑性
  • 金屬

第13章常規

第14章公司簡介

  • 3D Systems Europe
  • Advanc3D materials
  • Advanced powders and coatings
  • Carbon3D
  • Carpenter Technology
  • Cookson Precious Metals
  • CRP Group
  • DSM Somos
  • Evonik
  • Exceltec
  • Forefront Filament
  • Graphene 3D lab
  • Heraus New Business
  • Legor group
  • Lomiko Metals
  • LPW Technology
  • Maker Juice
  • Metalysis
  • Nanosteel
  • Ninja Flex
  • Oxford Performance materials
  • Sandvik
  • Stratasys
  • Taulman 3D
  • TLC Korea
  • Toner Plastics Inc
目錄
Product Code: ISBN 9781913899127

"Global market for 3D printing materials will be worth $18.4 billion in 2030."

From its humble beginnings in the late 1980s, through to the global force that it is today, the capabilities of 3D printing technology have been dependent on the range of materials available compatible with the different printing processes. The range of materials has continued to diversify in this time, with key 3D printer equipment manufacturers devoting significant resources to bringing new materials to market. This portfolio of compatible materials has continued to expand as end users demand higher quality products, greater choice and flexibility, and in the case of prototyping, materials that are more representative of the final product's appearance and behaviour. With end users spanning multiple industry verticals, there is a continuing drive to expand this list. The growth potential for 3D printing materials differs significantly from printing equipment, as legacy printers which are still operational continue to consume materials. Therefore, this segment of the 3D printing value chain represents tremendous potential growth opportunity over the next decade: IDTechEx forecasts that the global market for 3D printing materials will be worth $18.4 billion in 2030.

Technology and Applications

The 3D printing market encompasses an increasingly broad materials palette. This report takes an in-depth look into established material classes polymer, metal and ceramic materials, compatible with all main 3D printing technologies, including Photosensitive Resins, Thermoplastic Powders, Thermoplastic Filaments, Metal Powders, Metal Wire and Ceramic Powders. Key technological capabilities, printer compatibilities, strengths and weaknesses, key manufacturers and example applications are discussed for each established material type. In addition, nascent materials have been recently developed, or that will be commercialised in 2030 are introduced and evaluated.

Market analysis

This report forecasts the overall 3D printing materials market to 2030, with in depth discussion of currently commercialised and emerging materials. The current state of the materials market is analysed, and long-range forecasts from 2020-2030 for forecast demand by mass and revenue per annum segmented by material class, compatible printer technology, printer price point, third party material compatibility and end user industry are evaluated.

IDTechEx conducted exhaustive primary research with companies positioned throughout the entire 3D printing value chain for key insights into the trends impacting growth to 2030. Over 25 company profiles have been included in the report including BASF, Mitsubishi Chemical, Stratasys, 3D Systems, Carbon3D, Carpenter Technology, DSM Somos and Evonik, amongst others.

Key questions that are answered in this report:

  • What are the current and emerging 3D printing materials in 2030?
  • What are the strengths and weaknesses of different 3D printing materials?
  • Which materials are supported by different printer technologies?
  • What are the potential applications of products made from 3D printing materials?
  • How do different business models of 3D printer manufacturers impact material price?
  • What was the price point of 3D printing materials in 2020?
  • What are the market shares of each material class?
  • What are the key drivers and restraints of market growth?
  • What is the projected demand by mass and annual revenue growth for materials from 2020 to 2030?

Analyst access from IDTechEx

All report purchases include up to 30 minutes telephone time with an expert analyst who will help you link key findings in the report to the business issues you're addressing. This needs to be used within three months of purchasing the report.

TABLE OF CONTENTS

1. EXECUTIVE SUMMARY

  • 1.1. Major material-process relationships
  • 1.2. Why adopt 3D printing?
  • 1.3. Market share of materials by mass
  • 1.4. Market share of materials by revenue in 2018
  • 1.5. 3D printing materials: forecast mass demand
  • 1.6. 3D printing materials: forecast revenues
  • 1.7. Forecast materials revenue segmented by industry

2. INTRODUCTION

  • 2.1. Glossary: common acronyms for reference
  • 2.2. Scope of report
  • 2.3. The seven different types of 3D printing processes
  • 2.4. Major material-process relationships
  • 2.5. Why adopt 3D printing?
  • 2.6. History of 3D printing: the rise of the hobbyist
  • 2.7. History of 3D printing metals
  • 2.8. Business models: securing future revenues
  • 2.9. Consumer vs prosumer vs professional
  • 2.10. Use patterns and market segmentation
  • 2.11. The desktop 3D printer explosion
  • 2.12. Drivers and restraints of growth

3. PHOTOSENSITIVE RESINS

  • 3.1. Photosensitive resins
  • 3.2. Photosensitive resins suppliers
  • 3.3. Applications of photopolymeric components
  • 3.4. Photopolymeric hearing aids
  • 3.5. Photopolymeric jewellery design
  • 3.6. Photopolymeric injection molds
  • 3.7. Photopolymers for consumer goods
  • 3.8. Photopolymers: 3D printed optics

4. THERMOPLASTIC POWDERS

  • 4.1. Thermoplastic powders
  • 4.2. Thermoplastic powder suppliers
  • 4.3. Thermoplastic powders: gears, hinges and interlocking parts
  • 4.4. Thermoplastic powders: art
  • 4.5. Thermoplastic powders: post-processing

5. THERMOPLASTIC FILAMENTS

  • 5.1. Thermoplastic filaments
  • 5.2. Thermoplastic support materials: overview
  • 5.3. Thermoplastic filament suppliers
  • 5.4. Procurement of thermoplastic filaments
  • 5.5. Alternatives: poly(propylene) and elastomers
  • 5.6. Emerging materials: fillers for thermoplastic filaments
  • 5.7. Emerging materials: metallic PLA filaments
  • 5.8. High temperature thermoplastic filaments and pellets
  • 5.9. High temperature thermoplastic suppliers
  • 5.10. High temperature thermoplastic support materials
  • 5.11. Breakaway versus soluble support material: SWOT analysis
  • 5.12. Thermoplastic filaments: precision engineering
  • 5.13. Thermoplastic filament: prototypes
  • 5.14. Thermoplastic filaments: spare parts
  • 5.15. Thermoplastic filaments: hobbyist creations
  • 5.16. Thermoplastic filaments: vertical pins

6. COMPOSITES

  • 6.1. Composite thermoplastic filaments
  • 6.2. Composite thermoplastic filament suppliers
  • 6.3. Composite thermoplastic filaments: tooling
  • 6.4. Composite thermoplastic filaments: lightweighting

7. METAL POWDERS

  • 7.1. Powder morphology requirements
  • 7.2. Water or gas atomisation
  • 7.3. Plasma atomisation
  • 7.4. Electrochemical atomisation
  • 7.5. Powder morphology depends on atomisation process
  • 7.6. Evaluation of powder manufacturing techniques
  • 7.7. Supported materials
  • 7.8. Procurement of metal powders for AM
  • 7.9. Metal powder bed fusion post processing
  • 7.10. Barriers and limitations to using metal powders
  • 7.11. Alloys and material properties
  • 7.12. Aluminium and alloys
  • 7.13. 316L stainless steel
  • 7.14. Nickel alloy: Inconel 718
  • 7.15. Titanium and alloys

8. OTHER METAL FEEDSTOCKS

  • 8.1. Metal wire feedstocks
  • 8.2. Metal + polymer filaments
  • 8.3. Metal-filled thermoplastic filaments: BASF Ultrafuse 316LX
  • 8.4. Metal + photosensitive resin

9. OTHER MATERIALS

  • 9.1. Sand and binder
  • 9.2. Sand and binder: investment casting
  • 9.3. Ceramic powders and photosensitive resins
  • 9.4. Ceramics: dental and medical components
  • 9.5. Ceramic plaster + binder
  • 9.6. Ceramic powders and photosensitive resins
  • 9.7. Paper sheets: full colour models

10. EMERGING MATERIALS

  • 10.1. New alloys for 3D printing
  • 10.2. Tungsten powder and nanoparticles
  • 10.3. Glass
  • 10.4. 4D printing materials

11. MARKET ANALYSIS

  • 11.1. Segmentation of photosensitive resins
  • 11.2. Photosensitive resin market segmentation 2018
  • 11.3. Segmentation of thermoplastic filaments
  • 11.4. Thermoplastic filaments market segmentation 2019
  • 11.5. Segmentation of consumers of thermoplastic filaments
  • 11.6. Market share of materials by mass in 2019
  • 11.7. Market share of materials by revenue in 2019

12. MARKET FORECAST

  • 12.1. Forecast methodology and presentation of findings
  • 12.2. 3DP consumables market forecast by mass
  • 12.3. 3DP consumables market forecast by revenue
  • 12.4. Metals vs non-metals by mass
  • 12.5. Metals vs non-metals by revenue
  • 12.6. Photopolymer market by mass
  • 12.7. Photopolymers by revenue
  • 12.8. Thermoplastics market by mass
  • 12.9. Thermoplastics by revenue
  • 12.10. Metal market by mass
  • 12.11. Metal market by revenue

13. CONCLUSIONS

  • 13.1. Conclusions
  • 13.2. Where next for materials for 3D printing?

14. COMPANY PROFILES

  • 14.1. 3D Systems Europe
  • 14.2. Advanc3D materials
  • 14.3. Advanced powders and coatings
  • 14.4. Carbon3D
  • 14.5. Carpenter Technology
  • 14.6. Cookson Precious Metals
  • 14.7. CRP Group
  • 14.8. DSM Somos
  • 14.9. Evonik
  • 14.10. Exceltec
  • 14.11. Forefront Filament
  • 14.12. Graphene 3D lab
  • 14.13. Heraus New Business
  • 14.14. Legor group
  • 14.15. Lomiko Metals
  • 14.16. LPW Technology
  • 14.17. Maker Juice
  • 14.18. Metalysis
  • 14.19. Nanosteel
  • 14.20. Ninja Flex
  • 14.21. Oxford Performance materials
  • 14.22. Sandvik
  • 14.23. Stratasys
  • 14.24. Taulman 3D
  • 14.25. TLC Korea
  • 14.26. Toner Plastics Inc