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3D金属プリンティング:ダークアートかそれとも現代の鍛冶工か?

3D Metal Printing: Dark Art or Modern Blacksmith?

発行 BCC Research 商品コード 487850
出版日 ページ情報 英文 64 Pages
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3D金属プリンティング:ダークアートかそれとも現代の鍛冶工か? 3D Metal Printing: Dark Art or Modern Blacksmith?
出版日: 2017年04月13日 ページ情報: 英文 64 Pages
概要

積層造形によって製造された金属製品は、2016年に約2億1,000万米ドル規模となりましたが、10兆米ドル以上を構成する世界の製造市場の僅かに過ぎませんでした。しかしその規模は2021年までに20億米ドル以上に達すると予測されています。

当レポートでは、世界3D金属プリンティング市場について調査分析し、製品の特長を複製するのに不可欠な製品認定・認証方法・プロトコルの発展についての分析、持続的なパーツ製造を保証するためにプロセス制御ソフトウェアの改善が必要とされる理由の考察、積層造形 (AM) に適応した金属粉末のガス噴射最適化に関する詳細などについて、まとめています。

第1章 イントロダクション

第2章 背景

  • コンテクスト
    • アプリケーション
    • 市場の抑制要因
    • プロセスの説明
    • 材料

第3章 近年の発展

  • 新しいアプローチ
    • 新しいプロセス
    • 材料
    • ソフトウェア
    • 製品の定性化・認定
    • 特許活動

第4章 市場への影響

  • 将来のポジショニング
    • ベースラインの予測
    • 技術・その他の改善による市場予測
    • 世界の製造業の経済への影響

図表リスト

BBC Researchについて

目次
Product Code: AVM144A

Report Highlights

The 3D metal print industry anticipates that solutions to obstacles faced by the metal additive manufacturing (AM) are ready to galvanize a ten-fold increase in AM-produced metal products by 2021.

Metal products produced by additive manufacturing had a value of about $210 million in 2016, a fraction of the $10-plus trillion global manufacturing market. By 2021, BCC Research predicts new SLM software, alongside consistent optimized powders, could drive this figure just more than $2 billion.

Report includes:

  • Analysis of the development of product qualification, certification method, and protocol that will be essential to replicable product characteristics.
  • Insight into why improved process control software is needed to ensure consistent production of parts.
  • Details on gas atomization optimization of metal powders tailored for AM.
  • Details on improved beam control and in-process data gathering for SLM approaches.

Analyst Credentials

Andrew McWilliams spent more than 25 years as a consultant with Ernst & Young, McKinsey & Company and A.T. Kearny focused on manufacturing before segueing into research analysis. He has been covering myriad technology categories for BCC Research for more than 15 years. McWilliams has a BA from Princeton University and an MA from Harvard University. He has worked in more than 40 countries and he resides in the greater Boston area.

Chris Spivey has been Senior Editor at BCC Research for seven years, during which time he has directly overseen the publication of over 500 market research reports. He is the Cofounder of the Human Proteome Organization (HUPO) and has co-authored half a dozen scientific papers (in the field of Advanced Wavefront Transforms and Adaptive Optics). He holds undergraduate and graduate degrees from the University of Canterbury, New Zealand.

Chris has served as conference chair for a wide variety of sub disciplines: from Human Genetic Variation and Microarrays, to Gene Quantification and Biotech Startup Funding and Management. His consulting work includes Bulk Hetero-Junction CdS/CdTe thin film solar cells, Spinel LiMn2O4 as Li-ion Battery Cathode Material, Passivation of Laser Diode Micro Channel Coolers, Nanomaterial processes for Algal Biodiesel Fuel, General Nanoparticle manufacture from a "bottom-up" approach, and most recently modelling algorithms for physical vapor deposition systems.

Table of Contents

Chapter 1: Introduction

  • Andrew McWilliams
  • Chris Spivey
  • Related BCC Research Reports
  • What is all the excitement about?

Chapter 2: Background

  • Context
    • Applications
      • Aerospace
      • Automotive
      • Medical and dental
      • Military and defense
      • Other end-use sectors
    • Market restrictions
      • High costs
      • Efficiency
      • Performance standards
    • Process description
      • Digital light processing
      • Direct metal laser sintering
      • Selective laser melting
      • Electron beam melting
      • Laser metal deposition
      • Electron beam additive manufacturing
      • Ion fusion formation
      • Laser powder forming
      • Sheet lamination
      • Digital Metal
      • Multi-metal printing
      • Robocasting
    • Materials
      • Aluminum
      • 3D printing steel
      • Stainless steel
      • Titanium
      • Nickel alloy
      • Super alloys

    Chapter 3: Recent Developments

    • Novel approaches
      • New processes
        • Liquid metal inkjet printing
      • Materials
      • Software
        • Siemens PLM Software
        • General Electric/Lawrence Livermore National Laboratory open-source software
        • Additive Works' Amphyon
        • Simufact Additive
        • Renishaw's QuantAM
        • 3D Systems' 3DXpert
      • Product qualification and certification
      • Patent activity

Chapter 4: Effect on the Market

  • Positioning for the future
    • Baseline forecast
    • Market forecast with technology and other improvements
    • Overall impact on global manufacturing economy

Lists of Tables and Figures

About BCC Research

  • About BCC Research
    • Conditions of purchase
    • Report Subscriptions
    • Custom Analyses

List of Tables

  • TABLE 1: Global 3D printing market, through 2021
  • TABLE 2: Global 3D printed metal material market, by end use, through 2021 ($ millions)
  • TABLE 3: Metals used in 3D printing
  • TABLE 4: Global metals used in 3D printing market, through 2021
  • TABLE 5: Baseline market forecast for metal AM technologies, by segment, through 2021 ($ millions)
  • TABLE 6: Market forecast with technology and other improvements, by segment, through 2021 ($ millions)

List of Figures

  • FIGURE 1: SLM test system at LLNL
  • FIGURE 2: T25 sensor housing
  • FIGURE 3: Global 3D printed metal material market, by end use, 2016 and 2021 (%)
  • FIGURE 4: SuperDraco Engine Chamber being tested
  • FIGURE 5: Spacecraft valve body 3D printed in titanium
  • FIGURE 6: 3D titanium printing of orthopedic medical implant
  • FIGURE 7: Adaptive optics enables improved laser beam precision and control
  • FIGURE 8: Global metals used in 3D printing market, 2016 and 2021 (%)
  • FIGURE 9: U.S. patents issued for metal additive manufacturing related inventions, 2012-2016 (number of patents/patent share %)
  • FIGURE 10: Trends in U.S. patents issued for metal additive manufacturing related inventions, 2012- 2016 (number of patents issued annually)
  • FIGURE 11: Impact of software and other productivity improvements on metal additive manufacturing market, 2016 and 2021 ($ millions)
  • FIGURE 12: Baseline market forecast for metal AM technologies, by segment, 2016 and 2021 ($ millions)
  • FIGURE 13: Market forecast with technology and other improvements, by segment, 2016 and 2021 ($ millions)
  • FIGURE 14: Impact of technology and other improvements on output of additively manufactured metal products, 2016 and 2021 ($ millions)
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