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金属3Dプリンティング:2018 - 2028年

3D Printing Metals 2018-2028

発行 IDTechEx Ltd. 商品コード 333624
出版日 ページ情報 英文 120 Slides
納期: 即日から翌営業日
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本日の銀行送金レート: 1USD=112.47円で換算しております。
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金属3Dプリンティング:2018 - 2028年 3D Printing Metals 2018-2028
出版日: 2017年07月24日 ページ情報: 英文 120 Slides
概要

金属3Dプリンティング市場は、2028年に120億ドルの規模に達すると予測されています。

当レポートでは、金属粉末による3Dプリンティングの技術および市場について調査し、金属3Dプリンティング技術の種類と概要、専用金属粉末の種類と概要、3D金属プリンターおよび金属粉末市場の動向および市場成長予測 (インストールベース・新規販売台数・売上・出荷量など)、主なプリンター&粉末製造業者のプロファイル、主な用途とエンドユーザー、市場機会と課題、主要企業のプロファイルなどをまとめています。

第1章 エグゼクティブサマリー

第2章 イントロダクション

第3章 印刷工程

  • 一般的な頭字語・定義
  • 粉末床溶融結合:直接金属レーザー焼結法 (DMLS)
  • 粉末床溶融結合:電子ビーム溶融 (EBM)
  • 指向性エネルギー堆積:火薬式
  • 指向性エネルギー堆積:溶接
  • 直接結合剤噴射:金属+結合剤
  • 直接結合剤噴射:砂+結合剤
  • 超音波積層造形
    • 概要
    • 主要プロバイダー
    • SWOT分析

第4章 新興の印刷工程

  • 金属+ポリマーフィラメント押出
  • 液体金属押出
  • マイクロ流体電気めっき
  • 金属DLP・焼結
  • ナノ粒子ジェッティング

第5章 市販プリンターの特徴

  • 価格 vs 精度
  • 価格 vs 速度
  • 価格 vs 量
  • 速度 vs 量
  • 速度 vs 精度
  • 精度 vs 量

第6章 プリンターのマテリアル

  • 粒子形態の要件
  • 水またはガス噴射法
  • プラズマ噴射法
  • 電気化学的噴射法
  • 粉末製造技術の評価
  • 裏付き材料
  • AM向け金属粉末の調達
  • 金属粉末を利用する障壁・制限
  • アルミニウムと合金
  • 銅と青銅
  • コバルトと合金
  • ニッケル合金:インコネル625
  • ニッケル合金:インコネル718
  • 貴金属と合金
  • マルエージング鋼
  • 15-5PHステンレス鋼
  • 17-4PHステンレス鋼
  • 316ステンレス鋼
  • チタンと合金
  • 3Dプリンティング向けの新しい合金

第7章 アプリケーションのケーススタディ

  • Hofmann
  • RUAG Space and Altair
  • GE Aviation
  • Airbus
  • Boeing 787 Dreamliner
  • Siemens
  • Land Rover BAR
  • John Deere
  • Shapeways Jewelry
  • Arcam AB
  • Fraunhofer

第8章 投資、買収および提携

  • 金属3DプリントにおけるM&A活動

第9章 市場統計・動向

  • インストールベース:プリンタータイプ別
  • プリンター販売台数
  • インストールベース:メーカー別
  • 平均価格:プリンタータイプ別
  • 収益:プリンタータイプ別
  • 金属粉末の市場規模 (金額ベース)
  • 販売金属粉末のシェア:数量ベース
  • 販売金属粉末のシェア:金額ベース

第10章 プリンターおよびマテリアル:市場予測

  • 予測手法
  • インストールベースの供給予測
  • 年間販売台数予測
  • 年間プリンター収益予測
  • マテリアル販売数量の予測
  • 粉末 vs. その他原料の販売数量予測
  • 粉末販売数量予測
  • 粉末収益予測
  • 複合プリンター・マテリアル収益予測

第11章 付録:企業プロファイル

  • 3D Systems
  • Advanced Powders & Coatings
  • Arcam AB
  • Argen Corp
  • Boeing
  • Carpenter Technology
  • Concept Laser
  • Cookson Precious Metals
  • Cytosurge
  • EFESTO
  • EOS
  • The ExOne Company
  • Fabrisonic
  • Fraunhofer
  • Hoganas
  • Hybrid Manufacturing Technologies
  • Legor Group
  • Lockheed Martin
  • Loll Feinmechanik
  • LPW Technology
  • Markforged
  • Materialise
  • Metalysis
  • Nanosteel
  • Norsk Titanium
  • Optomec
  • QuesTEK
  • Realizer

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目次

"The 3D printing metals market will be worth $12B in 2028"

After initial commercialisation in the 1990s, 3D printing metals has witnessed a flurry of interest in recent years. Key players have been quick to capitalise on this demand, enjoying exponential revenue growth since 2013 as a result. The expiration of several key powder bed fusion patents in 2016 will almost certainly drive down printer prices, which, combined with market consolidation in the form of a number of high profile acquisitions, suggests this emerging technology is now showing signs of maturity. However, at this stage it would be a mistake to underestimate the enormous potential for innovation in 3D printing of metals.

In 2017, several companies launched new printer technologies with the promise of overcoming some of the existing barriers to adoption, such as lower printer prices, faster build speeds, cheaper materials, and more. Increasing throughput and streamlining production efficiencies will drive demand growth for printers and materials substantially.

Given these market trends, IDTechEx forecasts that the global market for 3D printing metals will reach a value of $12 billion by the year 2028.

                     Source IDTechEx.

Technology and Applications

In 2017, the 3D printing metals market comprises multiple different printer technologies. This report takes an in-depth look into established printer types such as Direct Metal Laser Sintering (DMLS), Electron Beam Melting (EBM), Directed Energy Deposition (DED) and Binder Jetting. Key technological capabilities, applicable markets, SWOT analyses and key manufacturers are discussed for each established printer type. In addition, nascent printer technologies that will be commercialised in 2017 are introduced, and their technological capabilities evaluated.

This report provides a detailed overview of currently supported materials for 3D printing metals, assessing production methods, raw material requirements across different printer types and their potential applications. In addition, novel methods for creating new materials for 3D printing metals are discussed.

Market analysis

This report forecasts the overall 3D printing metals market to 2028, with in depth discussion of currently commercialised and emerging printer technologies. The current state of the printers and materials market is analysed, and long-range forecasts from 2018-2028 for installed base, units sold and revenue per annum segmented by printer type and material 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 2028. Over 30 company profiles have been included in the report including EOS, Concept Laser GmbH and Arcam AB, amongst others.

Key questions that are answered in this report:

  • What are the current and emerging printer technology types in 2017?
  • How do metrics such as price, build speed, build volume and precision vary by printer type?
  • What materials are currently supported by different printer technology types?
  • Who are the key suppliers of metal powders for 3D printing metals?
  • What are the strengths and weaknesses of different powder manufacturing methods?
  • What is the current installed base of 3D metal printers?
  • What is the price range of 3D metal printers by technology type?
  • What are the market shares of those active in the market?
  • What are the key drivers and restraints of market growth?
  • How will sales of different printer types evolve from 2018 to 2028?

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. Why metal 3D printing?
  • 1.2. Drivers and restraints
  • 1.3. Evaluation of powder manufacturing techniques
  • 1.4. Procurement of metal powders for AM
  • 1.5. Mergers and acquisitions in metal 3D printing
  • 1.6. Capital investment activity
  • 1.7. Installed base by printer type in 2016
  • 1.8. Installed base supply forecast
  • 1.9. Metal powder revenue forecast
  • 1.10. Combined printers and materials revenue forecast

2. INTRODUCTION

  • 2.1. Introduction to metal 3D printing
  • 2.2. History of metal additive manufacturing
  • 2.3. Why metal 3D printing?
  • 2.4. Drivers and restraints
  • 2.5. Future of 3D printing applications

3. PRINTING PROCESSES

  • 3.1. Common acronyms and definitions
  • 3.2. Powder bed fusion - Direct Metal Laser Sintering
    • 3.2.1. Overview
    • 3.2.2. Key providers
    • 3.2.3. SWOT analysis
  • 3.3. Powder bed fusion - Electron Beam Melting
    • 3.3.1. Overview
    • 3.3.2. Key providers
    • 3.3.3. SWOT analysis
  • 3.4. Directed Energy Deposition - Blown Powder
    • 3.4.1. Overview
    • 3.4.2. Key providers
    • 3.4.3. SWOT analysis
  • 3.5. Directed Energy Deposition - Welding
    • 3.5.1. Overview
    • 3.5.2. Welding: Rapid Plasma Deposition
    • 3.5.3. Key providers
    • 3.5.4. SWOT analysis
  • 3.6. Direct binder jetting - Metal + binder
    • 3.6.1. Overview
    • 3.6.2. Key providers
    • 3.6.3. SWOT analysis
  • 3.7. Indirect binder jetting - Sand + binder
    • 3.7.1. Overview
    • 3.7.2. Key providers
    • 3.7.3. SWOT analysis
  • 3.8. Ultrasonic additive manufacturing
    • 3.8.1. Overview
    • 3.8.2. Key providers
    • 3.8.3. SWOT analysis

4. EMERGING PRINTING PROCESSES

  • 4.1. Metal + polymer filament extrustion
  • 4.2. Liquid metal deposition
  • 4.3. Microfluidic electroplating
  • 4.4. Metal DLP and sintering
  • 4.5. Nanoparticle jetting

5. PROPERTIES OF COMMERCIALLY AVAILABLE PRINTERS

  • 5.1. Price versus precision
  • 5.2. Price versus speed
  • 5.3. Price versus volume
  • 5.4. Speed versus volume
  • 5.5. Speed versus precision
  • 5.6. Precision versus volume

6. PRINTER MATERIALS

  • 6.1. Particle morphology requirements
  • 6.2. Water or gas atomisation
  • 6.3. Plasma atomisation
  • 6.4. Electrochemical atomisation
  • 6.5. Evaluation of powder manufacturing techniques
  • 6.6. Supported materials
  • 6.7. Procurement of metal powders for AM
  • 6.8. Barriers and limitations to using metal powders
  • 6.9. Aluminium and alloys
  • 6.10. Copper and bronze
  • 6.11. Cobalt and alloys
  • 6.12. Nickel alloy: Inconel 625
  • 6.13. Nickel alloy: Inconel 718
  • 6.14. Precious metals and alloys
  • 6.15. Maraging steel 1.2709
  • 6.16. 15-5PH stainless steel
  • 6.17. 17-4PH stainless steel
  • 6.18. 316L stainless steel
  • 6.19. Titanium and alloys
  • 6.20. New alloys for 3D printing

7. APPLICATION CASE STUDIES

  • 7.1. Hofmann
  • 7.2. RUAG Space and Altair
  • 7.3. GE Aviation
  • 7.4. Airbus
  • 7.5. Boeing 787 Dreamliner
  • 7.6. Siemens
  • 7.7. Land Rover BAR
  • 7.8. John Deere
  • 7.9. Shapeways Jewelry
  • 7.10. Arcam AB
  • 7.11. Fraunhofer

8. INVESTMENTS, ACQUISITIONS AND PARTNERSHIPS

  • 8.1. M&A activity in metal 3D printing

9. MARKET STATISTICS AND TRENDS IN 2016

  • 9.1. Installed base by printer type
  • 9.2. Printer units sold
  • 9.3. Installed base by manufacturer
  • 9.4. Average prices by printer type
  • 9.5. Revenues by printer type
  • 9.6. Market value of metal powders
  • 9.7. Share of metal powder sold by mass
  • 9.8. Share of metal powder sold by revenues

10. PRINTERS AND MATERIALS: MARKET FORECASTS FOR 2018-2028

  • 10.1. Forecast methodology
  • 10.2. Installed base supply forecast
  • 10.3. Annual unit sales forecast
  • 10.4. Annual printer revenue forecast
  • 10.5. Materials sales volume forecast
  • 10.6. Powder vs other feedstocks sales volume forecast
  • 10.7. Powder sales volume forecast
  • 10.8. Powder revenue forecast
  • 10.9. Combined printers and materials revenue forecast

11. APPENDIX: COMPANY PROFILES

  • 11.1. 3D Systems
  • 11.2. Advanced Powders & Coatings
  • 11.3. Arcam AB
  • 11.4. Argen Corp
  • 11.5. Boeing
  • 11.6. Carpenter Technology
  • 11.7. Concept Laser
  • 11.8. Cookson Precious Metals
  • 11.9. Cytosurge
  • 11.10. EFESTO
  • 11.11. EOS
  • 11.12. The ExOne Company
  • 11.13. Fabrisonic
  • 11.14. Fraunhofer
  • 11.15. Hoganas
  • 11.16. Hybrid Manufacturing Technologies
  • 11.17. Legor Group
  • 11.18. Lockheed Martin
  • 11.19. Loll Feinmechanik
  • 11.20. LPW Technology
  • 11.21. Markforged
  • 11.22. Materialise
  • 11.23. Metalysis
  • 11.24. Nanosteel
  • 11.25. Norsk Titanium
  • 11.26. Optomec
  • 11.27. QuesTEK
  • 11.28. Realizer
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