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金属粉末による積層造形 (AM) :機会分析と10ヶ年予測

ADDITIVE MANUFACTURING WITH METAL POWDERS 2017: AN OPPORTUNITY ANALYSIS AND TEN-YEAR FORECAST

発行 SmarTech Markets Publishing LLC 商品コード 310324
出版日 ページ情報 英文 175 Pages
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金属粉末による積層造形 (AM) :機会分析と10ヶ年予測 ADDITIVE MANUFACTURING WITH METAL POWDERS 2017: AN OPPORTUNITY ANALYSIS AND TEN-YEAR FORECAST
出版日: 2017年03月31日 ページ情報: 英文 175 Pages
概要

当レポートでは、積層造形 (AM) 用金属粉末市場について調査分析し、最新のプリンター、技術開発、主要企業の動向、10ヶ年市場予測など、体系的な情報を提供しています。

第1章 金属AM市場:転換となる年

  • 金属AM市場活動の12ヶ月分析
  • 金属AMにおける地域別の成長見通し
  • 金属AM技術における主要動向がAMの将来を形成
  • AMにおける金属粉末・合金の市場要件がシフト
  • 金属AM市場・ユーザーグループの特徴
  • 最新の市場予測とデータのサマリー

第2章 金属AM技術とエンドユーザー

  • 金属粉末床溶融結合技術
  • 粉末ベース指向性エネルギー堆積 (レーザークラッディング)
  • 金属結合剤噴射
  • ハードウェア市場の主要企業の分析:既存
    • 3D Systems
    • EOS
    • Concept Laser
    • Arcam
    • SLM Solutions
    • Renishaw
    • Optomec
    • ExOne
  • ハードウェア市場の主要企業の分析:新興
    • Trumpf/Sisma
    • OR LASER
    • Additive Industries
    • Farsoon
    • AddUp Solutions (Fives/Michelin)

第3章 金属粉末サプライチェーン:生産、供給、インフルエンサー

  • AM用金属粉末の特徴
  • 金属粉末サプライチェーンの概要
  • AM技術用金属粉末生産方法
  • 粉末サプライチェーン企業の分析

第4章 AMにおける金属合金カテゴリー:機会、用途

  • AMにおける鋼
  • コバルト・クロム
  • チタン合金
  • ニッケル合金
  • アルミニウム合金
  • 耐火金属、その他の合金
  • 貴金属

第5章 金属粉末・金属AM技術の10ヶ年予測

  • 調査手法と予測の懸念
  • 主要市場メトリクス
  • 金属AMハードウェア予測データ
  • AM用金属粉末の予測:産業セグメント別
    • 航空宇宙
    • 自動車
    • 医療
    • 歯科
    • 金属AMサービスのサービス機関
    • 宝石
    • 石油・ガス
    • その他
  • 金属AM予測収益のサマリー

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目次
Product Code: SMP-AM-MP2017-0317

SmarTech Publishing's 2017 report on metal powders for additive manufacturing will cover more metals than ever reflecting the growing palette of metal printing. We will also analyze the latest printers and technology developments that have emerges since our 2016 report on this topic. And we also take a look at who have been the winners and losers in the past year.

As usual we include ten-year forecasts of the additive manufactured metals market with projections by type of machine and software, metal consumed and service revenue bureau. Forecasts are also included by application/end-user industry.

No other source provides such a wealth of analysis and market data on metal additive manufacturing.

Table of Contents

Chapter One: Metal Additive Manufacturing Market in 2017. - A Pivotal Year

  • 1.1. Trailing Twelve-Month Review of Metal AM Market Activity
    • 1.1.1. Major Market Structure Changes - Acquisitions to Affect Supply Chain of Metal Powders
      • 1.1.1.1. Puris and Carpenter
      • 1.1.1.2. DMG Mori and Realizer
    • 1.1.2. Major Market Structure Changes - Significant New Entrants to Powder Bed Fusion Technology
      • 1.1.2.1. AddUp Solutions
      • 1.1.2.2. OR Laser
      • 1.1.2.3. Additive Industries
    • 1.1.3. Significant Process Development for Alternatives to Powder Bed Fusion - Anticipating Commercial Impacts
      • 1.1.3.1. MarkForged Metal X
      • 1.1.3.2. XJet Nano Particle Jetting
      • 1.1.3.3. Longer Term Process Developments-Adira Tiled Laser Manufacturing and Prodways MovingLight for Metals
  • 1.2. Regional Growth Perspectives in Metal AM
    • 1.2.1. European OEM Landscape Undergoing Changes
    • 1.2.2. North America Becoming Key Target for Major Players, Powder Supply Chain
    • 1.2.3. Demand for Metal AM In Asia Being Powered by Advanced Healthcare
    • 1.2.4. Rest of World - India, Mid-East Showing Signs of Growth
  • 1.3. Key Trends in Metal AM Technology Shaping the Future of Additive Manufacturing
    • 1.3.1. Advancements in Metal Additive Manufacturing Software Solutions
    • 1.3.2. Powder Bed Fusion Process Architecture Shifting Towards Automation, Serial Manufacturing
    • 1.3.3. Advancements in In-Situ Process Monitoring and Quality Assurance Technologies
    • 1.3.4. Key Growth Factors and Development Goals by Print Technology
  • 1.4. Shifting Market Requirements for Metal Powders and Alloys in Additive Manufacturing
    • 1.4.1. Need for Expertise Development and Consulting Services in Niche Alloy Groups
  • 1.5. Characterizing Metal Additive Manufacturing Markets and User Groups in 2017 and Beyond
    • 1.5.1. Aerospace Industry Driving Serial Manufacturing, Use of Specialized Alloys
    • 1.5.2. Medical Industry Transitioning to Metal AM at Record Levels
    • 1.5.3. Service Providers Capitalizing on Metal Additive Manufacturing Expertise
    • 1.5.4. Automotive Industry Expected to Grow Through Rapid Metal Tooling
    • 1.5.5. Emerging Opportunities: Defense, Energy, Oil and Gas, and More
      • 1.5.5.1. Energy, Oil and Gas
      • 1.5.5.2. Defense and Civilian Firearms
      • 1.5.5.3. Summary
  • 1.6. Summary of Latest Market Forecasts and Data

Chapter Two: Metal Additive Manufacturing Technologies and End Users

  • 2.1. Metal Powder Bed Fusion Technology
    • 2.1.1. Laser-Based Powder Bed Fusion Market Metrics
      • 2.1.1.1. Average Market Cost of Laser Powder Bed Fusion Technology
      • 2.1.1.2. Market Share of Laser Powder Bed Fusion Market - 2016
      • 2.1.1.3. Laser Powder Bed Fusion - Share of Alloys
      • 2.1.1.4. New Laser Metal AM Systems Coming to Market in 2017
    • 2.1.2. Electron Beam-Based Powder Bed Fusion Market Metrics
      • 2.1.2.1. Electron Beam Powder Bed Fusion - Share of Alloys
    • 2.1.3. Key Technology Developments in Powder Bed Fusion
      • 2.1.3.1. Automated Handling Unit Integration
  • 2.2. Powder Based Directed Energy Deposition (Laser Cladding)
    • 2.2.1. Significant Technical Developments in Directed Energy Deposition Additive Manufacturing
    • 2.2.2. Wire-Based Directed Energy Deposition and Its Impacts
    • 2.2.3. Laser-Based Directed Energy Deposition Market Metrics
      • 2.2.3.1. Average Market Cost of Laser Powder Bed Fusion Technology
      • 2.3.2.2. Market Share of Laser Powder Bed Fusion Market - 2016
      • 2.3.2.3. Laser Powder Bed Fusion - Share of Alloys
  • 2.3. Metal Binder Jetting
  • 2.4. Analysis of Hardware Market Major Players: Incumbents
    • 2.4.1. 3D Systems
    • 2.4.2. EOS
    • 2.4.3. Concept Laser
    • 2.4.4. Arcam
    • 2.4.5. SLM Solutions
    • 2.4.6. Renishaw
    • 2.4.7. Optomec
    • 2.4.8. ExOne
  • 2.5. Analysis of Hardware Market Major Players: Challengers
    • 2.5.1. Trumpf/Sisma
    • 2.5.2. OR LASER
    • 2.5.3. Additive Industries
    • 2.5.4. Farsoon
    • 2.5.5. AddUp Solutions (Fives/Michelin)

Chapter Three: The Metal Powder Supply Chain - Production, Supply, and Influencers

  • 3.1. Characterization of Metal Powders for Additive Manufacturing
    • 3.1.1. Evolving Powder Specifications and Requirements Influencing Supply Chain in 2017
  • 3.2. Overview of Metal Powder Supply Chain in 2017
    • 3.2.1. Ongoing Evolution in the Additive Manufacturing- Specific Metal Powder Supply Chain
    • 3.2.2. Success Recommendations for Metal Powder Suppliers Targeting AM in 2017
  • 3.3. Metal Powder Production Methods for Additive Manufacturing Technologies
    • 3.3.1. Major Trends in Powder Production 2017-2026
    • 3.3.2. Gas-Based Atomization
    • 3.3.3. Plasma-Based Atomization
    • 3.3.4. Alternative Atomization and Production Methods
      • 3.3.4.1. Water Atomization
      • 3.3.4.2. Non-Atomization Approaches
    • 3.3.5. Cost Analysis and Expectations for Metal Powders in AM
  • 3.4. Analysis of Powder Supply Chain Players
    • 3.4.1. AP&C
    • 3.4.2. Carpenter
    • 3.4.3. Sandvik
    • 3.4.4. H.C. Starck
    • 3.4.5. GKN Hoeganaes
    • 3.4.6. Osaka Titanium
    • 3.4.7. Praxair Surface Technologies
    • 3.4.8. ATI Metals
    • 3.4.9. Alcoa/Arconic
    • 3.4.10. Pyrogenesis
    • 3.4.11. US Metal Powders/AMPAL, Inc.
    • 3.4.12. Suppliers of Precious Metal Powders
    • 3.4.13. System OEMs Influencing Supply Chains through Reselling

Chapter Four: Metal Alloy Categories in Additive Manufacturing - Opportunities and Applications

  • 4.1. Steels in Additive Manufacturing
    • 4.1.1. Top Growth Applications and Associated Markets for Steels in Additive Manufacturing
    • 4.1.2. Primary Production Methods, Processing Technologies, and Suppliers for Steel Powders
      • 4.1.2.1. Leading Suppliers of AM Steel Powders
  • 4.2. Cobalt Chrome
    • 4.2.1. Top Growth Applications and Associated Markets for Cobalt Chrome in Additive Manufacturing
    • 4.2.2. Primary Production Methods, Processing Technologies, and Suppliers for Cobalt Chrome Powders
  • 4.3. Titanium Alloys
    • 4.3.1. Top Growth Applications and Associated Markets for Titanium Alloys in Additive Manufacturing
    • 4.3.2. Primary Production Methods, Processing Technologies, and Suppliers for Titanium Alloys Powders
  • 4.4. Nickel Alloys
    • 4.4.1. Top Growth Applications and Associated Markets for Nickel Alloys in Additive Manufacturing
    • 4.4.2. Primary Production Methods, Processing Technologies, and Suppliers for Nickel Alloys Powders
  • 4.5. Aluminum Alloys
    • 4.5.1. Top Growth Applications and Associated Markets for Aluminum Alloys in Additive Manufacturing
    • 4.5.2. Primary Production Methods, Processing Technologies, and Suppliers for Aluminum Alloys Powders
  • 4.6. Refractory Metals and Other Alloys - Tantalum, Tungsten, Molybdenum, and More
    • 4.6.1. Top Growth Applications and Associated Markets for Refractory Metals in Additive Manufacturing
  • 4.7. Precious Metals

Chapter Five: Ten-Year Forecasts for Metal Powders and Metal Additive Manufacturing Technologies

  • 5.1. Methodology and Forecast Considerations
  • 5.2. Presentation of Key Market Metrics
  • 5.3. Metal AM Hardware Forecast Data
  • 5.4. Metal Powders for AM Forecasts by Industry Segment
    • 5.4.1. Aerospace
    • 5.4.2. Automotive
    • 5.4.3. Medical
    • 5.4.4. Dental
    • 5.4.5. Service Bureaus for Metal AM Services
    • 5.4.6. Jewelry
    • 5.4.7. Oil and Gas
    • 5.4.8. Other Industries
  • 5.5. Summary of Metal AM Forecast Revenues

About SmarTech Publishing

About the Analyst

Acronyms and Abbreviations Used In this Report

List of Exhibits

  • Exhibit 1-1: Updated Metal AM Adoption Model
  • Exhibit 1-2: Illustration - AM Growth Balance and a Disconnect of Value
  • Exhibit 1-3: Projected Impact of General Electric AM Activity on Hardware Market
  • Exhibit 1-4: Summary of Traditional Machine Tool Provider Development of Additive Technology
  • Exhibit 1-5: Comparison: Average Metal Powder Bed Fusion Sales Price versus OR Laser ORLAS CREATOR
  • Exhibit 1-6: Additive Industries MetalFab1 Machine Demonstration
  • Exhibit 1-7: Analysis of Market Potential: Atomic Diffusion Additive Manufacturing
  • Exhibit 1-8: Analysis of Market Potential: Nano Particle Jetting
  • Exhibit 1-9: Updated Expectations and Outcomes on Key Metal AM Influencing Factors
  • Exhibit 1-10: Summary of Available Specialty Metal AM Print Preparation Software Packages
  • Exhibit 1-11: Metal Powder Bed Fusion Process Architecture Changes Illustrated
  • Exhibit 1-12: Summary of Metal AM Growth Drivers and Development Goals by Print Technology
  • Exhibit 1-13: Demand for Diversified Nickel and Titanium Alloys in Additive Manufacturing, 2014-2026
  • Exhibit 1-14: Total Projected AM Metal Powder Demand (All Alloy Groups and Technologies), Automotive Applications, 2015-2026
  • Exhibit 1-15: Summary of Other Industries and Related Opportunities in Metal AM
  • Exhibit 1-16: Total Primary Metal AM Market Size, by Category, 2014-2017(e)
  • Exhibit 2-1: Current Metal Additive Manufacturing Technology Hierarchy
  • Exhibit 2-2: Summary of Top Powder Bed Fusion Markets and Materials
  • Exhibit 2-3: Laser Metal Powder Bed Fusion System Parameters
  • Exhibit 2-4: Market Average Cost of Laser Powder Bed Fusion Technology, 2014-2017(e)
  • Exhibit 2-5: Laser Based Metal Powder Bed Fusion Market Share, by Vendor, 2016
  • Exhibit 2-6: Total Share of Metal Powders from Laser Powder Bed Fusion Systems, by Alloy Group, 2014-2016
  • Exhibit 2-7: Relevant New Laser Metal Powder Bed Fusion Systems Coming to Market in 2017
  • Exhibit 2-8: Electron-Based Powder Bed Fusion System Parameters
  • Exhibit 2-9: Total Share of Metal Powders from Electron Beam Powder Bed Fusion Systems, by Alloy Group, 2014-2016
  • Exhibit 2-10: Next Generation Powder Bed Fusion System Architecture Illustration
  • Exhibit 2-11: Summary of Top Powder Based Directed Energy Deposition Markets and Materials
  • Exhibit 2-12: Powder Based Directed Energy Deposition System Parameters
  • Exhibit 2-13: Market Average Cost of Laser Directed Energy Deposition Technology, 2014-2017(e)
  • Exhibit 2-14: Laser Based Metal Directed Energy Deposition Market Share, by Vendor, 2016
  • Exhibit 2-15: Total Share of Metal Powders from Laser Directed Energy Deposition Systems, by Alloy Group, 2014-2016
  • Exhibit 2-16: Total Share of Metal Powders from Metal Binder Jetting Systems, by Alloy Group, 2014-2016
  • Exhibit 3-1: Metal Powder Supply Chain in AM Capacity Expansions Offset by Increasing Requirements for Manufacturing Applications
  • Exhibit 3-2: Comparing Powder Supply from the End-User Perspective
  • Exhibit 3-3: Additive Manufacturing Metal Powder Production Share Analysis, by Production Technique, 2014-2026(e)
  • Exhibit 3-4: Comparison of Powder Production Techniques for Use in Additive Manufacturing
  • Exhibit 4-1: Available Steel Powders for Additive Manufacturing
  • Exhibit 4-2: Available Cobalt Chrome Alloys for Additive Manufacturing
  • Exhibit 4-3: Potential AM Powder Market for Industrial Superalloy Materials
  • Exhibit 4-4: Beneficial Traits of 3D-Printed Orthopedic Implants
  • Exhibit 4-5: Projected Market Share of Titanium AM Powder Production Methods, 2014-2026(e)
  • Exhibit 4-6: Summary of Nickel Additive Manufacturing Opportunities by Market Segment
  • Exhibit 5-1: Total Global AM Metal Powder Demand (Metric Tons), by Alloy Group, 2014-2026
  • Exhibit 5-2: Total Projected Global AM Print Volume (cubic inches), by Alloy Group, 2014-2026
  • Exhibit 5-3: Total Global AM Metal Powder Revenue, by Alloy Group, 2014-2026
  • Exhibit 5-4: Regional AM Metal Powder Revenue, All Alloys, 2014-2026
  • Exhibit 5-5: Global Annual Powder-Based Metal AM Unit Sales, by Technology Subsegment, 2014-2026
  • Exhibit 5-6: Global Annual Powder-Based Metal AM Install Base, by Technology Sub-segment, 2014-2026
  • Exhibit 5-7: Regional Powder-Based Metal AM Install Base, All Technologies, 2014-2026
  • Exhibit 5-8: Global Annual Powder-Based Metal AM Hardware Revenue, by Technology Sub-segment, 2014-2026
  • Exhibit 5-9: Total Projected Metal Powder Demand in Aerospace, by Alloy Type, 2014-2026
  • Exhibit 5-10: Total Projected Metal Powder Revenue in Aerospace, by Alloy Type, 2014-2026
  • Exhibit 5-11: Total Projected Metal Powder Demand in Automotive, by Alloy Type, 2014-2026
  • Exhibit 5-12: Total Projected Metal Powder Revenue in Automotive, by Alloy Type, 2014-2026
  • Exhibit 5-13: Total Projected Metal Powder Demand in Medical, by Alloy Type, 2014-2026
  • Exhibit 5-14: Total Projected Metal Powder Revenue in Medical, by Alloy Type, 2014-2026
  • Exhibit 5-15: Total Projected Metal Powder Demand in Dental, by Alloy Type, 2014-2026
  • Exhibit 5-16: Total Projected Metal Powder Revenue in Dental, by Alloy Type, 2014-2026
  • Exhibit 5-17: Total Projected Metal Powder Demand in Service Bureaus, by Alloy Type, 2014-2026
  • Exhibit 5-18: Total Projected Metal Powder Revenue in Service Bureaus, by Alloy Type, 2014-2026
  • Exhibit 5-19: Total Projected Metal Powder Demand in Jewelry, by Alloy Type, 2014-2026
  • Exhibit 5-20: Total Projected Metal Powder Revenue in Jewelry, by Alloy Type, 2014-2026
  • Exhibit 5-21: Total Projected Metal Powder Demand in Oil and Gas, by Alloy Type, 2014-2026
  • Exhibit 5-22: Total Projected Metal Powder Revenue in Oil and Gas, by Alloy Type, 2014-2026
  • Exhibit 5-23: Total Projected Metal Powder Demand in Other Industries, by Alloy Type, 2014-2026
  • Exhibit 5-24: Total Projected Metal Powder Revenue in Other Industries, by Alloy Type, 2014-2026
  • Exhibit 5-25: Total Projected Metal Powder Shipments for Additive Manufacturing, All Alloys, by Industry, 2014-2026
  • Exhibit 5-26: Total Projected Metal Powder Revenues for Additive Manufacturing, All Alloys, by Industry, 2014-2026
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