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全球金屬粉末添加劑製造市場(2022-2030):市場預測(製造技術/材料(合金/貴金屬)/按應用)/區域展望/應用潛力/市場份額
市場調查報告書
商品編碼
1067692

全球金屬粉末添加劑製造市場(2022-2030):市場預測(製造技術/材料(合金/貴金屬)/按應用)/區域展望/應用潛力/市場份額

Global Additive Manufacturing With Metal Powders Market Size by Manufacturing Technique, Material (Alloy), Precious Metal, Application, Industry Analysis Report, Regional Outlook, Application Potential, Competitive Market 2022-2030
出版日期: | 出版商: Global Market Insights Inc. | 英文 1165 Pages | 商品交期: 2-3個工作天內

價格
簡介目錄

由於政府積極努力改進主要地區的增材製造技術,預計到 2030 年金屬粉末增材製造技術將呈指數級增長。

按材料劃分,到 2030 年底,鈦 Ti6Al4V 行業預計將增長到 2.5037 億美元左右。此外,預計 Ti6Al4V (ELI) 行業在預測期內將以約 38.9% 的複合年增長率增長。鈷行業預計同期復合年增長率約為 12.3%。

本報告探討了金屬粉末添加製造技術的全球市場、市場定義和概述、新型冠狀病毒感染 (COVID-19) 等市場影響因素分析、監管環境、技術。總結了創新情況/可持續性、市場規模的變化/預測、製造技術/材料/應用/地區/主要國家等各個類別的細分、競爭環境、主要公司概況等。

目錄

第一章調查方法/調查範圍

第2章執行摘要

第三章金屬粉末增材製造技術產業的思考

  • 行業分類
  • COVID-19 世界經濟概覽
  • 產業生態系統分析
  • 價格分析
  • 技術情況
  • 技術比較
  • 粉末特性
  • 監管狀態
  • 行業影響因素
    • 生長因子
    • 潛在風險和挑戰
  • 創新/可持續發展
  • 增長潛力
  • 波特分析
  • 競爭形勢
  • PESTLE 分析
  • COVID-19 的影響:按應用

第 4 章金屬粉末增材製造技術市場:按製造技術分類

  • 主要趨勢
  • 粉床
    • 直接金屬激光燒結 (DMLS)
    • 選擇性激光熔化 (SLM)
    • 電子束熔煉 (EBM)
  • 送粉
    • 直接金屬沉積 (DMD)
    • 激光工程淨形 (LENS)
  • 其他

第 5 章金屬粉末增材製造技術市場:按材料分類

  • 主要趨勢
  • 合金
  • 不銹鋼
    • 奧氏體鋼
    • 馬氏體鋼
    • 雙相不銹鋼
    • 鐵素體鋼
  • 其他鋼材
    • 高速鋼
    • 工具鋼
    • 低合金鋼
  • 貴金屬
  • 鉑金
  • 其他貴金屬
  • 碳化鎢
  • 碳化矽
  • 氧化鋁粉末
  • 二氧化鋯
  • 氮化鋁

第 6 章金屬粉末增材製造技術市場:按應用分類

  • 主要趨勢
  • 航空航天
  • 醫療
  • 石油和天然氣
  • 能源
    • 核電
    • 可播放
  • 其他

第 7 章金屬粉末增材製造技術市場:按地區劃分

  • 主要趨勢
  • 北美
  • 歐洲
  • 亞太地區
  • 拉丁美洲
  • 中東/非洲

第 8 章公司簡介

  • 3D Systems Corporation
  • Additive Industries
  • Advanced Powder & Coatings, Inc
  • Aubert & Duval S.A
  • Aerojet Rocketdyne
  • Airbus SE
  • Allegheny Technologies (ATI)
  • AS America, Inc
  • APWorks
  • Arcam AB
  • BeAm
  • Xi'an Bright Laser Technologies
  • Carpenter Technologies Corp
  • Cerevo, Inc
  • Concept Laser
  • Constellium
  • Cookson Precious Metals Ltd
  • DanaMed
  • EOS GmbH
  • Equispheres, Inc
  • ExOne
  • Fabrisonic, LLC
  • Farsoon Technologies
  • Fonon Technologies
  • GE Additive
  • Grismont Paris
  • HC Starck
  • Hilderbrand & Cie SA
  • Hoeganaes Corporation
  • Insstek GmbH
  • Legor Group SpA
  • LPW Technology Ltd
  • Materialise NV
  • Matsuura Machinery Corporation
  • Metalysis Ltd
  • MTU Aero Engines
  • The NanoSteel Company, Inc
  • Optomec, Inc
  • Phenix Systems
  • Plunkett Sources
  • Pratt & Whitney - A Raytheon Technology Company
  • Praxair Surface Technologies
  • Progold SpA
  • Puris LLC (Carpenter Technology Corporation)
  • PyroGenesis Canada, Inc
  • ReaLizer GmbH (Dmg Mori Co Ltd)
  • Renshaw PLC
  • Sandvik Group
  • STELIA Aerospace
  • Shaanxi Hengtong Intelligent Machine Co Ltd
  • Sigma Labs, Inc
  • SLM Solutions
  • The Metal Powder Company Ltd (MEPCO)
  • Tronrud Engineering
  • Trumpf
  • Turbomeca
  • Hoganas AB
  • Xjet
  • Stratasys
  • VDM Metals GmbH
簡介目錄
Product Code: 1783

The additive manufacturing with metal powders market is speculated to grow exponentially by 2030 owing to increasing government initiatives to improve additive manufacturing technology across key regions.

Additive manufacturing offers several benefits, including less wastage, cost reduction, rapid prototyping, and a faster manufacturing process. In recent years, widespread adoption of additive manufacturing technology in place of conventional technology across numerous industry verticals has augmented industry uptake.

The additive manufacturing with metal powders market has been segmented based on application, manufacturing technique, material, and region. In terms of material, the market has further been divided into tungsten carbide, alloy, aluminum nitride, stainless steel, magnesium, other steel, molybdenum, precious metal, zirconium dioxide, tungsten, zirconium, silicon carbide, and aluminum oxide powder.

Under alloy, the market has been categorized into aluminum, titanium, nickel, cobalt, and copper. Under titanium, the additive manufacturing with metal powders market has been differentiated into Ti6Al4V (ELI), Ti6Al4V, and others (titanium grade 2 and TiAL6Nb7). The Ti6Al4V segment is estimated to garner a valuation of around USD 250.37 million by the end of 2030. The Ti6Al4V (ELI) segment is speculated to rise at a CAGR of approximately 38.9% through the review timeline.

The cobalt segment is expected to expand at about 12.3% CAGR over the assessment timeframe. Under cobalt, the market has been bifurcated into CoCrMo, CoCr, and CoCrWC. The CoCrWC segment is foreseen to register gains of almost 12% by the end of the analysis period. The CoCrMo segment is slated to progress at a CAGR of more than 13.3% between 2022 and 2030.

The copper segment held a valuation of nearly USD 4.30 million in 2021 and is likely to witness steady growth through the forecast period. Under copper, the market has been segregated into CuNi2SiCr, C18150, and CuCr1Zr. In 2021, the CuCr1Zr segment exceeded USD 2.35 million valuation and is poised to showcase optimistic growth over the forthcoming years.

The nickel segment is set to amass about 24.8% gains by 2030. Under nickel, the additive manufacturing with metal powders market has been bifurcated into Hastelloy X, Inconel 625, and Inconel 718. The Hastelloy X segment is seen to surpass USD 4.7 million by the end of 2030.

Under aluminum, the additive manufacturing with metal powders market has been classified into AL6061, ALSi12, ALSi10Mg, ALSi7Mg, and others (F357 & AlSi7Mg0.6. Aluminum F357). In 2021, the ALSi12 segment was worth around USD 6.40 million and is projected to observe notable progress over 2022-2030. The ALSi7Mg segment is set to reach a valuation of nearly USD 34.5 million by 2030. The AL6061 segment is anticipated to record gains of approximately 21.5% by the end of the stipulated timeline.

Under stainless steel, the market has been segmented into ferritic steel, austenitic steel, duplex steel, and martensitic steel. The martensitic steel segment is expected to garner about 28.5% gains by the end of 2030. The duplex steel segment is estimated to be valued at over USD 8.87 million by 2030. The ferritic steel segment is likely to be valued at above USD 3.6 million by 2030.

Under other steel, the additive manufacturing with metal powders market has been categorized into low alloy steel, high speed steel, and tool steel. The high speed steel segment was worth nearly USD 2.70 million in 2021 and is slated to expand at a robust growth rate through the projected timeframe. The low alloy steel segment is foreseen to register over 17.0% gains by 2030.

The tungsten segment is speculated to develop at a CAGR of above 20.5% over the forecast period. The silicon carbide segment is anticipated to expand at almost 5.5% CAGR between 2022 and 2030. In 2021, the aluminum oxide powder segment held a valuation of more than USD 185 thousand and is anticipated to witness sturdy expansion in the coming time period. The zirconium segment accounted for almost USD 1.75 million in revenue in 2021 and is estimated to grow at a substantial CAGR over the review period.

The zirconium dioxide segment is foreseen to develop at approximately 14.9% CAGR over the study period. The molybdenum segment is projected to progress at a CAGR of above 22.5% between 2022 and 2030. The magnesium segment is anticipated to amass nearly 18.4% gains by the end of 2030. The aluminum nitride segment held more than USD 205 thousand valuation in 2021 and is likely to exhibit a solid growth trajectory over 2022-2030. In 2021, the tungsten carbide segment was worth about USD 875 thousand and is expected to expand at a notable pace over the next few years.

With respect to application, the additive manufacturing with metal powders market has been divided into energy, aerospace, oil & gas, automotive, medical, and others (jewelry and watches). The oil & gas segment is expected to progress at a CAGR of above 18.6% through the forecast timeline. The energy segment is set to record more than 18.5% gains by the end of 2030.

Under energy, the additive manufacturing with metal powders market has been bifurcated into renewable and nuclear. In 2021, the nuclear segment held around USD 13.5 million valuation and is slated to develop at a considerable pace through the analysis timeline. The renewable segment is anticipated to garner an estimation of almost USD 49.0 million by 2030. The others segment, which includes watches and jewelry, accounted for over USD 20.5 million in revenue in 2021 and is expected to gain substantial traction through the stipulated timeframe.

On the regional front, the Latin America additive manufacturing with metal powders market is foreseen to be worth around USD 38.0 million by the end of 2030. The Middle East & Africa additive manufacturing with metal powders industry is poised to reach about USD 9.8 million valuation by 2030.

Table of Contents

Chapter 1 Methodology & Scope

  • 1.1 Market definition
  • 1.2 Base estimates & calculations
  • 1.3 Forecast calculations
  • 1.4 Data Sources
    • 1.4.1 Primary
    • 1.4.2 Secondary
      • 1.4.2.1 Paid Sources
      • 1.4.2.2 Public Sources

Chapter 2 Executive Summary

  • 2.1 Additive manufacturing with metal powders market report industry 3600 synopsis, 2017-2030
  • 2.2 Business trends
    • 2.2.1 Regional trends
    • 2.2.2 Manufacturing technique trends
    • 2.2.3 Material trends
    • 2.2.4 Application trends

Chapter 3 Additive Manufacturing with Metal Powders Industry Insights

  • 3.1 Industry segmentation
  • 3.2 COVID-19 overview on world economy
  • 3.3 Industry ecosystem analysis
    • 3.3.1 Vendor matrix
    • 3.3.2 Distribution channel analysis
      • 3.3.2.1 Collaboration/partnerships
      • 3.3.2.2 Distributors
      • 3.3.2.3 Service providers
      • 3.3.2.4 Technology providers
    • 3.3.3 Profit margin analysis
    • 3.3.4 Impact of COVID-19 on industry value chain
  • 3.4 Pricing Analysis
    • 3.4.1 COVID-19 impact on pricing trends, 2017-2030
      • 3.4.1.1 Titanium
      • 3.4.1.2 Ti6Al4V
      • 3.4.1.3 Ti6Al4V (ELI)
      • 3.4.1.4 Others
      • 3.4.1.5 Cobalt
      • 3.4.1.6 CoCr
      • 3.4.1.7 CoCrWC
      • 3.4.1.8 CoCrMo
      • 3.4.1.9 Copper
      • 3.4.1.10 C18150
      • 3.4.1.11 CuCr1Zr
      • 3.4.1.12 CuNi2SiCr
      • 3.4.1.13 Nickel
      • 3.4.1.14 Inconel 625
      • 3.4.1.15 Inconel 718
      • 3.4.1.16 Hastelloy X
      • 3.4.1.17 Aluminum
      • 3.4.1.18 AlSi12
      • 3.4.1.19 ALSi7Mg
      • 3.4.1.20 ALSi10Mg
      • 3.4.1.21 Al6061
      • 3.4.1.22 Others
      • 3.4.1.23 Austenitic Steel
      • 3.4.1.24 Martensitic Steel
      • 3.4.1.25 Duplex Steel
      • 3.4.1.26 Ferritic Steel
      • 3.4.1.27 Tool Steel
      • 3.4.1.28 High Speed Steel
      • 3.4.1.29 Low Alloy Steel
      • 3.4.1.30 Precious metal
      • 3.4.1.31 Tungsten
      • 3.4.1.32 Tungsten Carbide
      • 3.4.1.33 Silicon Carbide
      • 3.4.1.34 Aluminum Oxide powder
      • 3.4.1.35 Zirconium
      • 3.4.1.36 Zirconium Dioxide
      • 3.4.1.37 Molybdenum
      • 3.4.1.38 Magnesium
      • 3.4.1.39 Aluminum Nitride
    • 3.4.2 Cost structure analysis, 2021
  • 3.5 Technology landscape
    • 3.5.1 Powder bed fusion
    • 3.5.2 Blown powder
    • 3.5.3 Binder jetting
    • 3.5.4 Micro 3D Printing
      • 3.5.4.1 Lithography-based metal manufacturing (LMM)
    • 3.5.5 Cold Spray
  • 3.6 Technology comparison
  • 3.7 Powder Characteristics
  • 3.8 Regulatory landscape
    • 3.8.1 ASTM International
      • 3.8.1.1 ISO / ASTM52910 - 17: Standard Guidelines for Design for Additive Manufacturing
      • 3.8.1.2 ASTM F2924 - 14: Standard Specification for Additive Manufacturing Titanium-6 Aluminum-4 Vanadium with Powder Bed Fusion
      • 3.8.1.3 ASTM F3001 - 14: Standard Specification for Additive Manufacturing Titanium-6 Aluminum-4 Vanadium ELI (Extra Low Interstitial) with Powder Bed Fusion
      • 3.8.1.4 ASTM F3049 - 14: Standard Guide for Characterizing Properties of Metal Powders Used for Additive Manufacturing Processes
      • 3.8.1.5 ASTM F3187 - 16: Standard Guide for Directed Energy Deposition of Metals
    • 3.8.2 FDA Guideline for additive manufactured medical devices
    • 3.8.3 Europe Union Horizon 2020 Programme (H2020)
    • 3.8.4 ISO Standards
      • 3.8.4.1 ISO 17296-4:2014
      • 3.8.4.2 ISO/ASTM 52901:2017
    • 3.8.5 China
      • 3.8.5.1 China Food and Drug Administration (CFDA)
        • 3.8.5.1.1 Introduction
        • 3.8.5.1.2 Application
        • 3.8.5.1.3 Product testing
        • 3.8.5.1.4 Evaluation
  • 3.9 Industry impact forces
    • 3.9.1 Growth drivers
      • 3.9.1.1 North America: Technological advancements in medicine industry
      • 3.9.1.2 Europe: Enhanced application scope in automotive and aerospace sector
      • 3.9.1.3 Asia Pacific: Government initiatives to enhance additive manufacturing technology
      • 3.9.1.4 MEA: Replacement of conventional technology in oil & gas exploration and production activities
    • 3.9.2 Industry pitfalls & challenges
      • 3.9.2.1 Technological limitation
      • 3.9.2.2 Intellectual property issues
  • 3.10 Innovation & Sustainability
    • 3.10.1 Patent
  • 3.11 Growth potential analysis, 2021
    • 3.11.1 Emerging business model
      • 3.11.1.1 Collaboration/Joint ventures
      • 3.11.1.2 Acquisitions
      • 3.11.1.3 New product launch
  • 3.12 Porter's analysis
    • 3.12.1 Bargaining power of suppliers
    • 3.12.2 Bargaining power of buyers
    • 3.12.3 Threat of new entrants
    • 3.12.4 Threat of substitutes
  • 3.13 Competitive landscape, 2021
    • 3.13.1 Company market share analysis, 2021
    • 3.13.2 Strategy dashboard
    • 3.13.3 Impact of COVID-19 on consumer buying behaviour
  • 3.14 PESTLE Analysis
  • 3.15 Impact of COVID-19 on additive manufacturing with metal powders demand, by application
    • 3.15.1 Aerospace
    • 3.15.2 Automotive
    • 3.15.3 Medical
    • 3.15.4 Energy
    • 3.15.5 Oil & gas

Chapter 4 Additive Manufacturing with Metal Powders Market, By Manufacturing Technique

  • 4.1 Key manufacturing technique trends
  • 4.2 Powder Bed
    • 4.2.1 Global market estimates & forecast from powder bed technique, 2017-2030, (Tons) (USD Million)
    • 4.2.2 Global market estimates & forecast from powder bed technique, by region, 2017 - 2021, (Tons) (USD Million)
    • 4.2.3 Direct Metal Laser Sintering (DMLS)
      • 4.2.3.1 Global market estimates & forecast from DMLS technique, 2017-2030, (Tons) (USD Million)
      • 4.2.3.2 Global market estimates & forecast from DMLS technique, by region, 2017-2030, (Tons) (USD Million)
    • 4.2.4 Selective Laser Melting (SLM)
      • 4.2.4.1 Global market estimates & forecast from SLM technique, 2017-2030, (Tons) (USD Million)
      • 4.2.4.2 Global market estimates & forecast from SLM technique, by region, 2017-2030, (Tons) (USD Million)
    • 4.2.5 Electron Beam Melting (EBM)
      • 4.2.5.1 Global market estimates & forecast from EBM technique, 2017-2030, (Tons) (USD Million)
      • 4.2.5.2 Global market estimates & forecast from EBM technique, by region, 2017-2030, (Tons) (USD Million)
  • 4.3 Blown powder
    • 4.3.1 Global market estimates & forecast from blown powder technique, 2017-2030, (Tons) (USD Million)
    • 4.3.2 Global market estimates & forecast from blown powder technique, by region, 2017-2030, (Tons) (USD Million)
    • 4.3.3 Direct Metal Deposition (DMD)
      • 4.3.3.1 Global market estimates & forecast from DMD technique, 2017-2030, (Tons) (USD Million)
      • 4.3.3.2 Global market estimates & forecast from DMD technique, by region, 2017-2030, (Tons) (USD Million)
    • 4.3.4 Laser Engineering Net Shapes (LENS)
      • 4.3.4.1 Global market estimates & forecast from LENS technique, 2017-2030, (Tons) (USD Million)
      • 4.3.4.2 Global market estimates & forecast from LENS technique, by region, 2017-2030, (Tons) (USD Million)
  • 4.4 Others
    • 4.4.1 Global market estimates & forecast from other techniques, 2017 - 2021, (Tons) (USD Million)
    • 4.4.2 Global market estimates & forecast from other techniques, by region, 2017-2030, (Tons) (USD Million)

Chapter 5 Additive Manufacturing with Metal Powders Market, By Material

  • 5.1 Key material trends
  • 5.2 Alloy
    • 5.2.1 Global market estimates & forecast from alloy, 2017-2030, (Tons) (USD Million)
    • 5.2.2 Global market estimates & forecast from alloy, by region, 2017-2030, (Tons) (USD Million)
    • 5.2.3 Titanium
      • 5.2.3.1 Global market estimates & forecast from titanium, 2017-2030, (Tons) (USD Million)
      • 5.2.3.2 Global market estimates & forecast from titanium, by region, 2017-2030, (Tons) (USD Million)
      • 5.2.3.3 Ti6Al4V
        • 5.2.3.3.1 Global market estimates & forecast from Ti6Al4V, 2017-2030, (Tons) (USD Million)
        • 5.2.3.3.2 Global market estimates & forecast from Ti6Al4V, by region, 2017-2030, (Tons) (USD Million)
      • 5.2.3.4 Ti6Al4V (ELI)
        • 5.2.3.4.1 Global market estimates & forecast from Ti6Al4V (ELI), 2017-2030, (Tons) (USD Million)
        • 5.2.3.4.2 Global market estimates & forecast from Ti6Al4V (ELI), by region, 2017-2030, (Tons) (USD Million)
      • 5.2.3.5 Others
        • 5.2.3.5.1 Global market estimates & forecast from Others, 2017-2030, (Tons) (USD Million)
        • 5.2.3.5.2 Global market estimates & forecast from Others, by region, 2017-2030, (Tons) (USD Million)
    • 5.2.4 Cobalt
      • 5.2.4.1 Global market estimates & forecast from cobalt, 2017-2030, (Tons) (USD Million)
      • 5.2.4.2 Global market estimates & forecast from cobalt, by region, 2017-2030, (Tons)
      • 5.2.4.3 CoCr
        • 5.2.4.3.1 Global market estimates & forecast from CoCr, 2017-2030, (Tons) (USD Million)
        • 5.2.4.3.2 Global market estimates & forecast from CoCr, by region, 2017-2030, (Tons) (USD Million)
      • 5.2.4.4 CoCrWC
        • 5.2.4.4.1 Global market estimates & forecast from CoCrWC, 2017-2030, (Tons) (USD Million)
        • 5.2.4.4.2 Global market estimates & forecast from CoCrWC, by region, 2017-2030, (Tons) (USD Million)
      • 5.2.4.5 CoCrMo
        • 5.2.4.5.1 Global market estimates & forecast from CoCrMo, 2017-2030, (Tons) (USD Million)
        • 5.2.4.5.2 Global market estimates & forecast from CoCrMo, by region, 2017-2030, (Tons) (USD Million)
    • 5.2.5 Copper
      • 5.2.5.1 Global market estimates & forecast from copper, 2017-2030, (Tons) (USD Million)
      • 5.2.5.2 Global market estimates & forecast from copper, by region, 2017-2030, (Tons) (USD Million)
      • 5.2.5.3 C18150
        • 5.2.5.3.1 Global market estimates & forecast from C18150, 2017-2030, (Tons) (USD Million)
        • 5.2.5.3.2 Global market estimates & forecast from C18150, by region, 2017-2030, (Tons) (USD Million)
      • 5.2.5.4 CuCr1Zr
        • 5.2.5.4.1 Global market estimates & forecast from CuCr1Zr, 2017-2030, (Tons) (USD Million)
        • 5.2.5.4.2 Global market estimates & forecast from CuCr1Zr, by region, 2017-2030, (Tons) (USD Million)
      • 5.2.5.5 CuNi2SiCr
        • 5.2.5.5.1 Global market estimates & forecast from CuNi2SiCr, 2017-2030, (Tons) (USD Million)
        • 5.2.5.5.2 Global market estimates & forecast from CuNi2SiCr, by region, 2017-2030, (Tons) (USD Million)
    • 5.2.6 Nickel
      • 5.2.6.1 Global market estimates & forecast from nickel, 2017-2030, (Tons) (USD Million)
      • 5.2.6.2 Global market estimates & forecast from nickel, by region, 2017-2030, (Tons) (USD Million)
      • 5.2.6.3 Inconel 625
        • 5.2.6.3.1 Global market estimates & forecast from Inconel 625, 2017-2030, (Tons) (USD Million)
        • 5.2.6.3.2 Global market estimates & forecast from Inconel 625, by region, 2017-2030, (Tons) (USD Million)
      • 5.2.6.4 Inconel 718
        • 5.2.6.4.1 Global market estimates & forecast from Inconel 7182017-2030, (Tons) (USD Million)
        • 5.2.6.4.2 Global market estimates & forecast from Inconel 718, by region, 2017-2030, (Tons) (USD Million)
      • 5.2.6.5 Hastelloy X
        • 5.2.6.5.1 Global market estimates & forecast from Hastelloy X, 2017-2030, (Tons) (USD Million)
        • 5.2.6.5.2 Global market estimates & forecast from Hastelloy X, by region, 2017-2030, (Tons) (USD Million)
    • 5.2.7 Aluminium
      • 5.2.7.1 Global market estimates & forecast from aluminum, 2017-2030, (Tons) (USD Million)
      • 5.2.7.2 Global market estimates & forecast from aluminum, by region, 2017-2030, (Tons) (USD Million)
      • 5.2.7.3 ALSi12
        • 5.2.7.3.1 Global market estimates & forecast from ALSi12, 2017-2030, (Tons) (USD Million)
        • 5.2.7.3.2 Global market estimates & forecast from ALSi12, by region, 2017-2030, (Tons) (USD Million)
      • 5.2.7.4 ALSi7Mg
        • 5.2.7.4.1 Global market estimates & forecast from ALSi7Mg, 2017-2030, (Tons) (USD Million)
        • 5.2.7.4.2 Global market estimates & forecast from ALSi7Mg, by region, 2017-2030, (Tons) (USD Million)
      • 5.2.7.5 ALSi10Mg
        • 5.2.7.5.1 Global market estimates & forecast from ALSi10Mg,2017-2030, (Tons) (USD Million)
        • 5.2.7.5.2 Global market estimates & forecast from ALSi10Mg, by region, 2017-2030, (Tons) (USD Million)
      • 5.2.7.6 AL6061
        • 5.2.7.6.1 Global market estimates & forecast from AL6061, 2017-2030, (Tons) (USD Million)
        • 5.2.7.6.2 Global market estimates & forecast from AL6061, by region, 2017-2030, (Tons) (USD Million)
      • 5.2.7.7 Others
        • 5.2.7.7.1 Global market estimates & forecast from Others, 2017-2030, (Tons) (USD Million)
        • 5.2.7.7.2 Global market estimates & forecast from Others, by region, 2017-2030, (Tons) (USD Million)
  • 5.3 Stainless Steel
    • 5.3.1 Global market estimates & forecast from stainless steel, 2017-2030, (Tons) (USD Million)
    • 5.3.2 Global market estimates & forecast from stainless steel, by region, 2017-2030, (Tons) (USD Million)
    • 5.3.3 Austenitic Steel
      • 5.3.3.1 Global market estimates & forecast from austenitic steel, 2017-2030, (Tons) (USD Million)
      • 5.3.3.2 Global market estimates & forecast from austenitic steel, by region, 2017-2030, (Tons) (USD Million)
    • 5.3.4 Martensitic Steel
      • 5.3.4.1 Global market estimates & forecast from martensitic steel, 2017-2030, (Tons) (USD Million)
      • 5.3.4.2 Global market estimates & forecast from martensitic steel, by region, 2017-2030, (Tons) (USD Million)
    • 5.3.5 Duplex steel
      • 5.3.5.1 Global market estimates & forecast from duplex steel, 2017-2030, (Tons) (USD Million)
      • 5.3.5.2 Global market estimates & forecast from duplex steel, by region, 2017-2030, (Tons) (USD Million)
    • 5.3.6 Ferritic Steel
      • 5.3.6.1 Global market estimates & forecast from ferritic steel, 2017-2030, (Tons) (USD Million)
      • 5.3.6.2 Global market estimates & forecast from ferritic steel, by region, 2017-2030, (Tons) (USD Million)
  • 5.4 Other Steel
    • 5.4.1 Global market estimates & forecast from other steel, 2017-2030, (Tons) (USD Million)
    • 5.4.2 Global market estimates & forecast from other steel, by region, 2017-2030, (Tons) (USD Million)
    • 5.4.3 High Speed Steel
      • 5.4.3.1 Global market estimates & forecast from high-speed steel, 2017-2030, (Tons) (USD Million)
      • 5.4.3.2 Global market estimates & forecast from high-speed steel, by region, 2017-2030, (Tons) (USD Million)
    • 5.4.4 Tool Steel
      • 5.4.4.1 Global market estimates & forecast from tool steel, 2017-2030, (Tons) (USD Million)
      • 5.4.4.2 Global market estimates & forecast from tool steel, by region, 2017-2030, (Tons) (USD Million)
    • 5.4.5 Low Alloy Steel
      • 5.4.5.1 Global market estimates & forecast from low alloy steel, 2017-2030, (Tons) (USD Million)
      • 5.4.5.2 Global market estimates & forecast from low alloy steel, by region, 2017-2030, (Tons) (USD Million)
  • 5.5 Precious Metal
    • 5.5.1 Global market estimates & forecast from precious metal, 2017-2030, (Tons) (USD Million)
    • 5.5.2 Global market estimates & forecast from precious metal, by region, 2017-2030, (Tons) (USD Million)
  • 5.6 Platinum
    • 5.6.1 Global market estimates & forecast from platinum, 2017-2030, (Tons) (USD Million)
    • 5.6.2 Global market estimates & forecast from platinum, by region, 2017-2030, (Tons) (USD Million)
  • 5.7 Other precious metal
    • 5.7.1 Global market estimates & forecast from other precious metal, 2017-2030, (Tons) (USD Million)
    • 5.7.2 Global market estimates & forecast from other precious metal, by region, 2017-2030, (Tons) (USD Million)
  • 5.8 Tungsten
    • 5.8.1 Global market estimates & forecast from tungsten, 2017-2030, (Tons) (USD Million)
    • 5.8.2 Global market estimates & forecast from tungsten, by region, 2017-2030, (Tons) (USD Million)
  • 5.9 Tungsten carbide
    • 5.9.1 Global market estimates & forecast from Tungsten carbide, 2017-2030, (Tons) (USD Million)
    • 5.9.2 Global market estimates & forecast from Tungsten carbide, by region, 2017-2030, (Tons) (USD Million)
  • 5.10 Silicon carbide
    • 5.10.1 Global market estimates & forecast from Silicon carbide, 2017-2030, (Tons) (USD Million)
    • 5.10.2 Global market estimates & forecast from Silicon carbide, by region, 2017-2030, (Tons) (USD Million)
  • 5.11 Aluminium oxide powder
    • 5.11.1 Global market estimates & forecast from Aluminium oxide powder, 2017-2030, (Tons) (USD Million)
    • 5.11.2 Global market estimates & forecast from Aluminium oxide powder, by region, 2017-2030, (Tons) (USD Million)
  • 5.12 Zirconium
    • 5.12.1 Global market estimates & forecast from Zirconium, 2017-2030, (Tons) (USD Million)
    • 5.12.2 Global market estimates & forecast from Zirconium, by region, 2017-2030, (Tons) (USD Million)
  • 5.13 Zirconium dioxide
    • 5.13.1 Global market estimates & forecast from Zirconium dioxide, 2017-2030, (Tons) (USD Million)
    • 5.13.2 Global market estimates & forecast from Zirconium dioxide, by region, 2017-2030, (Tons) (USD Million)
  • 5.14 Molybdenum
    • 5.14.1 Global market estimates & forecast from Molybdenum, 2017-2030, (Tons) (USD Million)
    • 5.14.2 Global market estimates & forecast from Molybdenum, by region, 2017-2030, (Tons) (USD Million)
  • 5.15 Magnesium
    • 5.15.1 Global market estimates & forecast from Magnesium, 2017-2030, (Tons) (USD Million)
    • 5.15.2 Global market estimates & forecast from Magnesium, by region, 2017-2030, (Tons) (USD Million)
  • 5.16 Aluminium nitride
    • 5.16.1 Global market estimates & forecast from Aluminium nitride, 2017-2030, (Tons) (USD Million)
    • 5.16.2 Global market estimates & forecast from Aluminium nitride, by region, 2017-2030, (Tons) (USD Million)

Chapter 6 Additive Manufacturing with Metal Powders Market, By Application

  • 6.1 Key application trends
  • 6.2 Aerospace
    • 6.2.1 Global market estimates & forecast from aerospace, 2017-2030, (Tons) (USD Million)
    • 6.2.2 Global market estimates & forecast from aerospace, by region, 2017-2030, (Tons) (USD Million)
  • 6.3 Automotive
    • 6.3.1 Global market estimates & forecast from automotive, 2017-2030, (Tons) (USD Million)
    • 6.3.2 Global market estimates & forecast from automotive, by region, 2017-2030, (Tons) (USD Million)
  • 6.4 Medical
    • 6.4.1 Global market estimates & forecast from medical, 2017-2030, (Tons) (USD Million)
    • 6.4.2 Global market estimates & forecast from medical, by region, 2017 - 2021, (Tons) (USD Million)
  • 6.5 Oil & Gas
    • 6.5.1 Global market estimates & forecast from oil & gas, 2017-2030, (Tons) (USD Million)
    • 6.5.2 Global market estimates & forecast from oil & gas, by region, 2017-2030, (Tons) (USD Million)
  • 6.6 Energy
    • 6.6.1 Global market estimates & forecast from energy, 2017-2030, (Tons) (USD Million)
    • 6.6.2 Global market estimates & forecast from energy, by region, 2017-2030, (Tons) (USD Million)
    • 6.6.3 Nuclear
      • 6.6.3.1 Global market estimates & forecast from nuclear, 2017-2030, (Tons) (USD Million)
      • 6.6.3.2 Global market estimates & forecast from nuclear, by region, 2017-2030, (Tons) (USD Million)
    • 6.6.4 Renewable
      • 6.6.4.1 Global market estimates & forecast from renewable, 2017-2030, (Tons) (USD Million)
      • 6.6.4.2 Global market estimates & forecast from renewable, by region, 2017-2030, (Tons) (USD Million)
  • 6.7 Other
    • 6.7.1 Global market estimates & forecast from other applications, 2017-2030, (Tons) (USD Million)
    • 6.7.2 Global market estimates & forecast from other applications, by region, 2017-2030, (Tons) (USD Million)

Chapter 7 Additive Manufacturing with Metal Powders Market, By Region

  • 7.1 Key regional trends
  • 7.2 North America
    • 7.2.1 North America additive manufacturing with metal powders market, 2017-2030, (Tons) (USD Million)
    • 7.2.2 North America additive manufacturing with metal powders market, by manufacturing technique, 2017-2030, (Tons) (USD Million)
    • 7.2.3 North America additive manufacturing with metal powders market, by material, 2017-2030, (Tons) (USD Million)
    • 7.2.4 North America additive manufacturing with metal powders market, by application, 2017-2030, (Tons) (USD Million)
    • 7.2.5 U.S.
      • 7.2.5.1 U.S. additive manufacturing with metal powders market, 2017-2030, (Tons) (USD Million)
      • 7.2.5.2 U.S. additive manufacturing with metal powders market, by manufacturing technique, 2017-2030, (Tons) (USD Million)
      • 7.2.5.3 U.S. additive manufacturing with metal powders market, by material, 2017-2030, (Tons) (USD Million)
      • 7.2.5.4 U.S. additive manufacturing with metal powders market, by application, 2017-2030, (Tons) (USD Million)
    • 7.2.6 Canada
      • 7.2.6.1 Canada additive manufacturing with metal powders market, 2017-2030, (Tons) (USD Million)
      • 7.2.6.2 Canada additive manufacturing with metal powders market, by manufacturing technique, 2017-2030, (Tons) (USD Million)
      • 7.2.6.3 Canada additive manufacturing with metal powders market, by material, 2017-2030, (Tons) (USD Million)
      • 7.2.6.4 Canada additive manufacturing with metal powders market, by application, 2017-2030, (Tons) (USD Million)
  • 7.3 Latin America (LATAM)
    • 7.3.1 LATAM additive manufacturing with metal powders market, 2017-2030, (Tons) (USD Million)
    • 7.3.2 LATAM additive manufacturing with metal powders market, by manufacturing technique, 2017-2030, (Tons) (USD Million)
    • 7.3.3 LATAM additive manufacturing with metal powders market, by material, 2017-2030, (Tons) (USD Million)
    • 7.3.4 LATAM additive manufacturing with metal powders market, by application, 2017-2030, (Tons) (USD Million)
    • 7.3.5 Brazil
      • 7.3.5.1 Brazil additive manufacturing with metal powders market, 2017-2030, (Tons) (USD Million)
      • 7.3.5.2 Brazil additive manufacturing with metal powders market, by manufacturing technique, 2017-2030, (Tons) (USD Million)
      • 7.3.5.3 Brazil additive manufacturing with metal powders market, by material, 2017-2030, (Tons) (USD Million)
      • 7.3.5.4 Brazil additive manufacturing with metal powders market, by application, 2017-2030, (Tons) (USD Million)
    • 7.3.6 Mexico
      • 7.3.6.1 Mexico additive manufacturing with metal powders market, 2017-2030, (Tons) (USD Million)
      • 7.3.6.2 Mexico additive manufacturing with metal powders market, by manufacturing technique, 2017-2030, (Tons) (USD Million)
      • 7.3.6.3 Mexico additive manufacturing with metal powders market, by material, 2017-2030, (Tons) (USD Million)
      • 7.3.6.4 Mexico additive manufacturing with metal powders market, by application, 2017-2030, (Tons) (USD Million)
    • 7.3.7 Argentina
      • 7.3.7.1 Argentina additive manufacturing with metal powders market, 2017-2030, (Tons) (USD Million)
      • 7.3.7.2 Argentina additive manufacturing with metal powders market, by manufacturing technique, 2017-2030, (Tons) (USD Million)
      • 7.3.7.3 Argentina additive manufacturing with metal powders market, by material, 2017-2030, (Tons) (USD Million)
      • 7.3.7.4 Argentina additive manufacturing with metal powders market, by application, 2017-2030, (Tons) (USD Million)
  • 7.4 Europe
    • 7.4.1 Europe additive manufacturing with metal powders market, 2017-2030, (Tons) (USD Million)
    • 7.4.2 Europe additive manufacturing with metal powders market, by manufacturing technique, 2017-2030, (Tons) (USD Million)
    • 7.4.3 Europe additive manufacturing with metal powders market, by material, 2017-2030, (Tons) (USD Million)
    • 7.4.4 Europe additive manufacturing with metal powders market, by application, 2017-2030, (Tons) (USD Million)
    • 7.4.5 Germany
      • 7.4.5.1 Germany additive manufacturing with metal powders market, 2017-2030, (Tons) (USD Million)
      • 7.4.5.2 Germany additive manufacturing with metal powders market, by manufacturing technique, 2017-2030, (Tons) (USD Million)
      • 7.4.5.3 Germany additive manufacturing with metal powders market, by material, 2017-2030, (Tons) (USD Million)
      • 7.4.5.4 Germany additive manufacturing with metal powders market, by application, 2017-2030, (Tons) (USD Million)
    • 7.4.6 UK
      • 7.4.6.1 UK additive manufacturing with metal powders market, 2017-2030, (Tons) (USD Million)
      • 7.4.6.2 UK additive manufacturing with metal powders market, by manufacturing technique, 2017-2030, (Tons) (USD Million)
      • 7.4.6.3 UK additive manufacturing with metal powders market, by material, 2017-2030, (Tons) (USD Million)
      • 7.4.6.4 UK additive manufacturing with metal powders market, by application, 2017-2030, (Tons) (USD Million)
    • 7.4.7 France
      • 7.4.7.1 France additive manufacturing with metal powders market, 2017-2030, (Tons) (USD Million)
      • 7.4.7.2 France additive manufacturing with metal powders market, by manufacturing technique, 2017-2030, (Tons) (USD Million)
      • 7.4.7.3 France additive manufacturing with metal powders market, by material, 2017-2030, (Tons) (USD Million)
      • 7.4.7.4 France additive manufacturing with metal powders market, by application, 2017-2030, (Tons) (USD Million)
    • 7.4.8 Italy
      • 7.4.8.1 Italy additive manufacturing with metal powders market, 2017-2030, (Tons) (USD Million)
      • 7.4.8.2 Italy additive manufacturing with metal powders market, by manufacturing technique, 2017-2030, (Tons) (USD Million)
      • 7.4.8.3 Italy additive manufacturing with metal powders market, by material, 2017-2030, (Tons) (USD Million)
      • 7.4.8.4 Italy additive manufacturing with metal powders market, by application, 2017-2030, (Tons) (USD Million)
    • 7.4.9 Spain
      • 7.4.9.1 Spain additive manufacturing with metal powders market, 2017-2030, (Tons) (USD Million)
      • 7.4.9.2 Spain additive manufacturing with metal powders market, by manufacturing technique, 2017-2030, (Tons) (USD Million)
      • 7.4.9.3 Spain additive manufacturing with metal powders market, by material, 2017-2030, (Tons) (USD Million)
      • 7.4.9.4 Spain additive manufacturing with metal powders market, by application, 2017-2030, (Tons) (USD Million)
    • 7.4.10 Russia
      • 7.4.10.1 Russia additive manufacturing with metal powders market, 2017-2030, (Tons) (USD Million)
      • 7.4.10.2 Russia additive manufacturing with metal powders market, by manufacturing technique, 2017-2030, (Tons) (USD Million)
      • 7.4.10.3 Russia additive manufacturing with metal powders market, by material, 2017-2030, (Tons) (USD Million)
      • 7.4.10.4 Russia additive manufacturing with metal powders market, by application, 2017-2030, (Tons) (USD Million)
    • 7.4.11 Poland
      • 7.4.11.1 Poland additive manufacturing with metal powders market, 2017-2030, (Tons) (USD Million)
      • 7.4.11.2 Poland additive manufacturing with metal powders market, by manufacturing technique, 2017-2030, (Tons) (USD Million)
      • 7.4.11.3 Poland additive manufacturing with metal powders market, by material, 2017-2030, (Tons) (USD Million)
      • 7.4.11.4 Poland additive manufacturing with metal powders market, by application, 2017-2030, (Tons) (USD Million)
  • 7.5 Asia Pacific (APAC)
    • 7.5.1 APAC additive manufacturing with metal powders market, 2017-2030, (Tons) (USD Million)
    • 7.5.2 APAC additive manufacturing with metal powders market, by manufacturing technique, 2017-2030, (Tons) (USD Million)
    • 7.5.3 APAC additive manufacturing with metal powders market, by material, 2017-2030, (Tons) (USD Million)
    • 7.5.4 APAC additive manufacturing with metal powders market, by application, 2017-2030, (Tons) (USD Million)
    • 7.5.5 China
      • 7.5.5.1 China additive manufacturing with metal powders market, 2017-2030, (Tons) (USD Million)
      • 7.5.5.2 China additive manufacturing with metal powders market, by manufacturing technique, 2017-2030, (Tons) (USD Million)
      • 7.5.5.3 China additive manufacturing with metal powders market, by material, 2017-2030, (Tons) (USD Million)
      • 7.5.5.4 China additive manufacturing with metal powders market, by application, 2017-2030, (Tons) (USD Million)
    • 7.5.6 Japan
      • 7.5.6.1 Japan additive manufacturing with metal powders market, 2017-2030, (Tons) (USD Million)
      • 7.5.6.2 Japan additive manufacturing with metal powders market, by manufacturing technique, 2017-2030, (Tons) (USD Million)
      • 7.5.6.3 Japan additive manufacturing with metal powders market, by material, 2017-2030, (Tons) (USD Million)
      • 7.5.6.4 Japan additive manufacturing with metal powders market, by application, 2017-2030, (Tons) (USD Million)
    • 7.5.7 India
      • 7.5.7.1 India additive manufacturing with metal powders market, 2017-2030, (Tons) (USD Million)
      • 7.5.7.2 India additive manufacturing with metal powders market, by manufacturing technique, 2017-2030, (Tons) (USD Million)
      • 7.5.7.3 India additive manufacturing with metal powders market, by material, 2017-2030, (Tons) (USD Million)
      • 7.5.7.4 India additive manufacturing with metal powders market, by application, 2017-2030, (Tons) (USD Million)
    • 7.5.8 South Korea
      • 7.5.8.1 South Korea additive manufacturing with metal powders market, 2017-2030, (Tons) (USD Million)
      • 7.5.8.2 South Korea additive manufacturing with metal powders market, by manufacturing technique, 2017-2030, (Tons) (USD Million)
      • 7.5.8.3 South Korea additive manufacturing with metal powders market, by material, 2017-2030, (Tons) (USD Million)
      • 7.5.8.4 South Korea additive manufacturing with metal powders market, by application, 2017-2030, (Tons) (USD Million)
    • 7.5.9 Australia
      • 7.5.9.1 Australia additive manufacturing with metal powders market, 2017-2030, (Tons) (USD Million)
      • 7.5.9.2 Australia additive manufacturing with metal powders market, by manufacturing technique, 2017-2030, (Tons) (USD Million)
      • 7.5.9.3 Australia additive manufacturing with metal powders market, by material, 2017-2030, (Tons) (USD Million)
      • 7.5.9.4 Australia additive manufacturing with metal powders market, by application, 2017-2030, (Tons) (USD Million)
    • 7.5.10 Taiwan
      • 7.5.10.1 Taiwan additive manufacturing with metal powders market, 2017-2030, (Tons) (USD Million)
      • 7.5.10.2 Taiwan additive manufacturing with metal powders market, by manufacturing technique, 2017-2030, (Tons) (USD Million)
      • 7.5.10.3 Taiwan additive manufacturing with metal powders market, by material, 2017-2030, (Tons) (USD Million)
      • 7.5.10.4 Taiwan additive manufacturing with metal powders market, by application, 2017-2030, (Tons) (USD Million)
  • 7.6 Middle East & Africa (MEA)
    • 7.6.1 MEA additive manufacturing with metal powders market, 2017-2030, (Tons) (USD Million)
    • 7.6.2 MEA additive manufacturing with metal powders market, by manufacturing technique, 2017-2030, (Tons) (USD Million)
    • 7.6.3 MEA additive manufacturing with metal powders market, by material, 2017-2030, (Tons) (USD Million)
    • 7.6.4 MEA additive manufacturing with metal powders market, by application, 2017-2030, (Tons) (USD Million)
    • 7.6.5 Saudi Arabia
      • 7.6.5.1 Saudi Arabia additive manufacturing with metal powders market, 2017-2030, (Tons) (USD Million)
      • 7.6.5.2 Saudi Arabia additive manufacturing with metal powders market, by manufacturing technique, 2017-2030, (Tons) (USD Million)
      • 7.6.5.3 Saudi Arabia additive manufacturing with metal powders market, by material, 2017-2030, (Tons) (USD Million)
      • 7.6.5.4 Saudi Arabia additive manufacturing with metal powders market, by application, 2017-2030, (Tons) (USD Million)
    • 7.6.6 UAE
      • 7.6.6.1 UAE additive manufacturing with metal powders market, 2017-2030, (Tons) (USD Million)
      • 7.6.6.2 UAE additive manufacturing with metal powders market, by manufacturing technique, 2017-2030, (Tons) (USD Million)
      • 7.6.6.3 UAE additive manufacturing with metal powders market, by material, 2017-2030, (Tons) (USD Million)
      • 7.6.6.4 UAE additive manufacturing with metal powders market, by application, 2017-2030, (Tons) (USD Million)
    • 7.6.7 South Africa
      • 7.6.7.1 South Africa additive manufacturing with metal powders market, 2017-2030, (Tons) (USD Million)
      • 7.6.7.2 South Africa additive manufacturing with metal powders market, by manufacturing technique, 2017-2030, (Tons) (USD Million)
      • 7.6.7.3 South Africa additive manufacturing with metal powders market, by material, 2017-2030, (Tons) (USD Million)
      • 7.6.7.4 South Africa additive manufacturing with metal powders market, by application, 2017-2030, (Tons) (USD Million)

Chapter 8 Company Profiles

  • 8.1 3D Systems Corporation
    • 8.1.1 Business overview
    • 8.1.2 Financial data
    • 8.1.3 Product landscape
    • 8.1.4 Strategic outlook
    • 8.1.5 SWOT analysis
  • 8.2 Additive Industries
    • 8.2.1 Business overview
    • 8.2.2 Financial data
    • 8.2.3 Product landscape
    • 8.2.4 SWOT analysis
  • 8.3 Advanced Powder & Coatings, Inc
    • 8.3.1 Business overview
    • 8.3.2 Financial data
    • 8.3.3 Product landscape
    • 8.3.4 SWOT analysis
  • 8.4 Aubert & Duval S.A
    • 8.4.1 Business overview
    • 8.4.2 Financial data
    • 8.4.3 Product landscape
    • 8.4.4 SWOT analysis
  • 8.5 Aerojet Rocketdyne
    • 8.5.1 Business overview
    • 8.5.2 Financial data
    • 8.5.3 Product landscape
    • 8.5.4 SWOT analysis
  • 8.6 Airbus SE
    • 8.6.1 Business overview
    • 8.6.2 Financial data
    • 8.6.3 Product landscape
    • 8.6.4 SWOT analysis
  • 8.7 Allegheny Technologies (ATI)
    • 8.7.1 Business overview
    • 8.7.2 Financial data
    • 8.7.3 Product landscape
    • 8.7.4 SWOT analysis
  • 8.8 AS America, Inc
    • 8.8.1 Business overview
    • 8.8.2 Financial data
    • 8.8.3 Product landscape
    • 8.8.4 Strategic outlook
    • 8.8.5 SWOT analysis
  • 8.9 APWorks
    • 8.9.1 Business overview
    • 8.9.2 Financial data
    • 8.9.3 Product landscape
    • 8.9.4 SWOT analysis
  • 8.10 Arcam AB
    • 8.10.1 Business overview
    • 8.10.2 Financial data
    • 8.10.3 Product landscape
    • 8.10.4 Strategic outlook
    • 8.10.5 SWOT analysis
  • 8.11 BeAm
    • 8.11.1 Business overview
    • 8.11.2 Financial data
    • 8.11.3 Product landscape
    • 8.11.4 Strategic outlook
    • 8.11.5 SWOT analysis
  • 8.12 Xi'an Bright Laser Technologies
    • 8.12.1 Business overview
    • 8.12.2 Financial data
    • 8.12.3 Product landscape
    • 8.12.4 SWOT analysis
  • 8.13 Carpenter Technologies Corp
    • 8.13.1 Business overview
    • 8.13.2 Financial data
    • 8.13.3 Product landscape
    • 8.13.4 Strategic outlook
    • 8.13.5 SWOT analysis
  • 8.14 Cerevo, Inc
    • 8.14.1 Business overview
    • 8.14.2 Financial data
    • 8.14.3 Product landscape
    • 8.14.4 SWOT analysis
  • 8.15 Concept Laser
    • 8.15.1 Business overview
    • 8.15.2 Financial data
    • 8.15.3 Product landscape
    • 8.15.4 SWOT analysis
  • 8.16 Constellium
    • 8.16.1 Business overview
    • 8.16.2 Financial data
    • 8.16.3 Product landscape
    • 8.16.4 Strategic outlook
    • 8.16.5 SWOT analysis
  • 8.17 Cookson Precious Metals Ltd
    • 8.17.1 Business overview
    • 8.17.2 Financial data
    • 8.17.3 Product landscape
    • 8.17.4 SWOT analysis
  • 8.18 DanaMed
    • 8.18.1 Business overview
    • 8.18.2 Financial data
    • 8.18.3 Product landscape
    • 8.18.4 SWOT analysis
  • 8.19 EOS GmbH
    • 8.19.1 Business overview
    • 8.19.2 Financial data
    • 8.19.3 Product landscape
    • 8.19.4 Strategic outlook
    • 8.19.5 SWOT analysis
  • 8.20 Equispheres, Inc
    • 8.20.1 Business overview
    • 8.20.2 Financial data
    • 8.20.3 Product landscape
    • 8.20.4 Strategic outlook
    • 8.20.5 SWOT analysis
  • 8.21 ExOne
    • 8.21.1 Business overview
    • 8.21.2 Financial data
    • 8.21.3 Product landscape
    • 8.21.4 Strategic outlook
    • 8.21.5 SWOT analysis
  • 8.22 Fabrisonic, LLC
    • 8.22.1 Business overview
    • 8.22.2 Financial data
    • 8.22.3 Product landscape
    • 8.22.4 SWOT analysis
  • 8.23 Farsoon Technologies
    • 8.23.1 Business overview
    • 8.23.2 Financial data
    • 8.23.3 Product landscape
    • 8.23.4 Strategic outlook
    • 8.23.5 SWOT analysis
  • 8.24 Fonon Technologies
    • 8.24.1 Business overview
    • 8.24.2 Financial data
    • 8.24.3 Product landscape
    • 8.24.4 SWOT analysis
  • 8.25 GE Additive
    • 8.25.1 Business overview
    • 8.25.2 Financial data
    • 8.25.3 Product landscape
    • 8.25.4 Strategic outlook
    • 8.25.5 SWOT analysis
  • 8.26 Grismont Paris
    • 8.26.1 Business overview
    • 8.26.2 Financial data
    • 8.26.3 Product landscape
    • 8.26.4 SWOT analysis
  • 8.27 HC Starck
    • 8.27.1 Business overview
    • 8.27.2 Financial data
    • 8.27.3 Product landscape
    • 8.27.4 SWOT analysis
  • 8.28 Hilderbrand & Cie SA
    • 8.28.1 Business overview
    • 8.28.2 Financial data
    • 8.28.3 Product landscape
    • 8.28.4 SWOT analysis
  • 8.29 Hoeganaes Corporation
    • 8.29.1 Business overview
    • 8.29.2 Financial data
    • 8.29.3 Product landscape
    • 8.29.4 Strategic outlook
    • 8.29.5 SWOT analysis
  • 8.30 Insstek GmbH
    • 8.30.1 Business overview
    • 8.30.2 Financial data
    • 8.30.3 Product landscape
    • 8.30.4 SWOT analysis
  • 8.31 Legor Group SpA
    • 8.31.1 Business overview
    • 8.31.2 Financial data
    • 8.31.3 Product landscape
    • 8.31.4 SWOT analysis
  • 8.32 LPW Technology Ltd
    • 8.32.1 Business overview
    • 8.32.2 Financial data
    • 8.32.3 Product landscape
    • 8.32.4 SWOT analysis
  • 8.33 Materialise NV
    • 8.33.1 Business overview
    • 8.33.2 Financial data
    • 8.33.3 Product landscape
    • 8.33.4 Strategic outlook
    • 8.33.5 SWOT analysis
  • 8.34 Matsuura Machinery Corporation
    • 8.34.1 Business overview
    • 8.34.2 Financial data
    • 8.34.3 Product landscape
    • 8.34.4 SWOT analysis
  • 8.35 Metalysis Ltd
    • 8.35.1 Business overview
    • 8.35.2 Financial data
    • 8.35.3 Product landscape
    • 8.35.4 SWOT analysis
  • 8.36 MTU Aero Engines
    • 8.36.1 Business overview
    • 8.36.2 Financial data
    • 8.36.3 Product landscape
    • 8.36.4 SWOT analysis
  • 8.37 The NanoSteel Company, Inc
    • 8.37.1 Business overview
    • 8.37.2 Financial data
    • 8.37.3 Product landscape
    • 8.37.4 SWOT analysis
  • 8.38 Optomec, Inc
    • 8.38.1 Business overview
    • 8.38.2 Financial data
    • 8.38.3 Product landscape
    • 8.38.4 SWOT analysis
  • 8.39 Phenix Systems
    • 8.39.1 Business overview
    • 8.39.2 Financial data
    • 8.39.3 Product landscape
    • 8.39.4 SWOT analysis
  • 8.40 Plunkett Sources
    • 8.40.1 Business overview
    • 8.40.2 Financial data
    • 8.40.3 Product landscape
    • 8.40.4 SWOT analysis
  • 8.41 Pratt & Whitney - A Raytheon Technology Company
    • 8.41.1 Business overview
    • 8.41.2 Financial data
    • 8.41.3 Product landscape
    • 8.41.4 SWOT analysis
  • 8.42 Praxair Surface Technologies
    • 8.42.1 Business overview
    • 8.42.2 Financial data
    • 8.42.3 Product landscape
    • 8.42.4 Strategic outlook
    • 8.42.5 SWOT analysis
  • 8.43 Progold SpA
    • 8.43.1 Business overview
    • 8.43.2 Financial data
    • 8.43.3 Product landscape
    • 8.43.4 SWOT analysis
  • 8.44 Puris LLC (Carpenter Technology Corporation)
    • 8.44.1 Business overview
    • 8.44.2 Financial data
    • 8.44.3 Product landscape
    • 8.44.4 SWOT analysis
  • 8.45 PyroGenesis Canada, Inc
    • 8.45.1 Business overview
    • 8.45.2 Financial data
    • 8.45.3 Product landscape
    • 8.45.4 SWOT analysis
  • 8.46 ReaLizer GmbH (Dmg Mori Co Ltd)
    • 8.46.1 Business overview
    • 8.46.2 Financial data
    • 8.46.3 Product landscape
    • 8.46.4 SWOT analysis
  • 8.47 Renshaw PLC
    • 8.47.1 Business overview
    • 8.47.2 Financial data
    • 8.47.3 Product landscape
    • 8.47.4 SWOT analysis
  • 8.48 Sandvik Group
    • 8.48.1 Business overview
    • 8.48.2 Financial data
    • 8.48.3 Product landscape
    • 8.48.4 Strategic outlook
    • 8.48.5 SWOT analysis
  • 8.49 STELIA Aerospace
    • 8.49.1 Business overview
    • 8.49.2 Financial data
    • 8.49.3 Product landscape
    • 8.49.4 SWOT analysis
  • 8.50 Shaanxi Hengtong Intelligent Machine Co Ltd
    • 8.50.1 Business overview
    • 8.50.2 Financial data
    • 8.50.3 Product landscape
    • 8.50.4 SWOT analysis
  • 8.51 Sigma Labs, Inc
    • 8.51.1 Business overview
    • 8.51.2 Financial data
    • 8.51.3 Product landscape
    • 8.51.4 Strategic outlook
    • 8.51.5 SWOT analysis
  • 8.52 SLM Solutions
    • 8.52.1 Business overview
    • 8.52.2 Financial data
    • 8.52.3 Product landscape
    • 8.52.4 Strategic outlook
    • 8.52.5 SWOT analysis
  • 8.53 The Metal Powder Company Ltd (MEPCO)
    • 8.53.1 Business overview
    • 8.53.2 Financial data
    • 8.53.3 Product landscape
    • 8.53.4 SWOT analysis
  • 8.54 Tronrud Engineering
    • 8.54.1 Business overview
    • 8.54.2 Financial data
    • 8.54.3 Product landscape
    • 8.54.4 SWOT analysis
  • 8.55 Trumpf
    • 8.55.1 Business overview
    • 8.55.2 Financial data
    • 8.55.3 Product landscape
    • 8.55.4 Strategic outlook
    • 8.55.5 SWOT analysis
  • 8.56 Turbomeca
    • 8.56.1 Business overview
    • 8.56.2 Financial data
    • 8.56.3 Product landscape
    • 8.56.4 Strategic outlook
    • 8.56.5 SWOT analysis
  • 8.57 Hoganas AB
    • 8.57.1 Business overview
    • 8.57.2 Financial data
    • 8.57.3 Product landscape
    • 8.57.4 Strategic outlook
    • 8.57.5 SWOT analysis
  • 8.58 Xjet
    • 8.58.1 Business overview
    • 8.58.2 Financial data
    • 8.58.3 Product landscape
    • 8.58.4 Strategic outlook
    • 8.58.5 SWOT analysis
  • 8.59 Stratasys
    • 8.59.1 Business overview
    • 8.59.2 Financial data
    • 8.59.3 Product landscape
    • 8.59.4 SWOT analysis
  • 8.60 VDM Metals GmbH
    • 8.60.1 Business overview
    • 8.60.2 Financial data
    • 8.60.3 Product landscape
    • 8.60.4 SWOT analysis