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The Global Metal Additive Manufacturing Market 2026-2036

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  • Published: July 2025
  • Pages: 240
  • Tables: 114
  • Figures: 49

 

The global metal additive manufacturing market represents one of the most dynamic and rapidly expanding sectors within advanced manufacturing, characterized by exceptional growth trajectories and technological innovation that continues to reshape industrial production capabilities across multiple sectors. The market has demonstrated remarkable resilience and sustained expansion.

The metal AM market encompasses three primary segments: hardware, materials, and services, each exhibiting distinct growth patterns and market dynamics. Hardware revenues are driven by continuous technological advancement and cost reduction initiatives. The materials segment emerges as the fastest-growing component, reflecting the shift from prototyping to production applications and the recurring nature of material consumption. Services, encompassing everything from contract manufacturing to quality assurance and certification, demonstrate steady growth, highlighting the increasing sophistication and specialization within the ecosystem. The technology evolution reflects natural progression patterns where early-stage approaches initially capture niche applications before expanding into broader market segments as capabilities improve, costs decrease, and customer confidence develops through proven commercial success. This dynamic creates opportunities for equipment manufacturers developing breakthrough technologies while challenging established players to maintain competitive positioning through continuous innovation.

Material consumption patterns reflect the critical role of feedstock quality and availability in market expansion. Metal powders maintain dominant market position, while specialty materials including high entropy alloys and metal matrix composites represent rapidly growing segments addressing specific performance requirements. Titanium alloys maintain the largest market share by value despite volume growth in lower-cost systems, reflecting continued aerospace and medical application expansion requiring high-performance materials.

The market demonstrates increasing maturation through several key indicators: established players maintaining stable revenue performance through diversified portfolios and recurring revenue streams, technology consolidation as proven approaches gain broader adoption, and the emergence of production-oriented applications requiring consistent quality and supply chain reliability. Materials increasingly represent the largest revenue segment as equipment utilization increases and manufacturing applications expand, creating substantial opportunities for powder producers and specialty material suppliers.

Looking forward, the metal additive manufacturing market faces both unprecedented opportunities and evolving challenges. Success factors include technology leadership for competitive differentiation, cost optimization for market accessibility, customer support excellence for retention, and innovation investment for future positioning. The industry's trajectory suggests continued robust growth driven by expanding applications, technology maturation, and increasing commercial adoption across diverse industrial sectors, positioning metal AM as a transformative force in modern manufacturing.

The Global Metal Additive Manufacturing Market 2026-2036 represents the most comprehensive and authoritative analysis of the rapidly evolving metal 3D printing industry, providing essential market intelligence for manufacturers, investors, technology developers, and strategic decision-makers navigating this transformative manufacturing sector. This definitive market research report delivers deep insights into market dynamics, technological innovations, competitive landscapes, and growth opportunities that will shape the future of metal additive manufacturing across aerospace, automotive, medical, energy, and industrial applications. Contents include: 

  • Metal AM Manufacturing Landscape - Industry structure and ecosystem mapping
  • Technology Landscape - Comprehensive technology comparison and market positioning
  • Investment Landscape - Funding trends, venture capital activity, and M&A analysis
  • Market Drivers and Restraints - Growth catalysts and adoption barriers analysis
  • China Market Analysis - Regional dynamics and competitive implications
  • International Trade and Tariffs - Global trade impacts and policy implications
  • Technology Trends - Innovation directions and emerging capabilities
  • Service Provision Ecosystem - Service bureau market and business model evolution
  • Global Market Forecasts 2025-2036 - Comprehensive revenue and unit projections
    • Installed base forecasts by technology (units)
    • Hardware revenue forecasts by technology
    • Material forecasts by feedstock type, technology, and alloy
  • Industry Ecosystem Analysis - Value chain mapping and key player positioning
  • 3D Printing Processes Overview - Technology fundamentals and classification
  • Material-Process Compatibility - Technology-material matching analysis
  • Metal AM Adoption Patterns - Market penetration and growth trajectories
  • Market Evolution - Historical development and maturation trends
  • Business Models Analysis - Revenue models and strategic approaches
  • Performance Metrics Analysis - Build volume, rate, resolution, and price comparison
  • Market Analysis and Industry Dynamics: 
    • Recent Financial Performance - Public company analysis and sector health
    • Economic Conditions Impact - Macroeconomic factors affecting market growth
    • Supply Chain Challenges - Materials availability and logistics considerations
    • International Trade Tensions - Tariff impacts and reshoring implications
    • Technology Landscape Evolution - Market share dynamics and competitive positioning
    • Laser PBF Hardware Market - Dominant technology segment analysis
    • Alloy Systems Development - Material innovation and adoption patterns
    • Investment and Funding Analysis - Capital flow trends and strategic investments
  • Service Bureau and Contract Manufacturing: 
    • Service Bureau Operations - Business models and service offerings
    • Design for Additive Manufacturing (DfAM) - Optimization services and capabilities
    • Industry Challenges - Operational constraints and market barriers
    • Leading Service Providers - Company profiles and competitive analysis
    • Part Manufacturers - Proprietary technology and production capabilities
    • In-house Production Trends - Technology adoption and capability development
  • Metal Printing Technologies Analysis: 
    • Powder Bed Fusion Technologies:
    • Directed Energy Deposition:
    • Binder Jetting Technologies:
    • Ultrasonic Additive Manufacturing (UAM) - Process characteristics and applications
    • Emerging Technologies
  • Materials and Feedstock Analysis:
    • Metal Powder Systems
    • Alternative Feedstock Systems
  • Compatible Metal Materials Analysis
  • Market Applications and End-User Analysis:
    • Aerospace and Defense Applications
    • Medical and Healthcare Applications
    • Automotive Industry Applications
    • Energy and Oil & Gas Sector
    • Railway and Transportation
    • Mining and Heavy Industry
    • Tooling and Manufacturing
    • Construction Industry
    • Electronics and Communications
  • In-depth profiles of 92 market players. Companies profiled include 3D Spark GmbH, 3D Systems, 3D Architech, 3DEO, 3D4MEC, 3T Additive Manufacturing, 6K Additive, Aconity3D GmbH, ADDere, Addilan, Addimetal, ADDiTEC, AddUp, Additive Industries, Admatec Additive Solutions B.V., AIM3D, Alloyed, Alpha Laser, Amaero Inc., AMCM GmbH, AMFREE, APWORKS, Atomik AM, Aurora Labs, Avimetal Additive, Beehive Industries, Bright Laser Technologies (BLT), Caracol, CharmRay, Colibirum Additive, Constellium, Desktop Metal, Divergent Technologies, Inc., DMG Mori, DN Solutions, Elementum 3D, EOS Gmbh, Eplus3D, Equispheres, Exaddon AG, ExOne, Exponential Technologies, Fabric8 Labs, Farsoon Technologies and more....

 

 

1             EXECUTIVE SUMMARY            20

  • 1.1        Overview           20
    • 1.1.1    Primary Categories    20
    • 1.1.2    Metal AM Manufacturing Landscape             2
    • 1.1.3    Technology Landscape           2
    • 1.1.4    Investment Landscape            4
  • 1.2        Market Drivers and Restraints            5
  • 1.3        The Market in China  7
  • 1.4        International Trade and Tariffs            7
  • 1.5        Technology Trends      8
  • 1.6        Service Provision in the Metal Manufacturing Ecosystem 11
  • 1.7        Metal AM Global Market Forecasts 2025-2036       12
    • 1.7.1    Installed base 2025-2036 (Units)     14
    • 1.7.2    Hardware revenue forecast 2025-2036       15
    • 1.7.3    Material forecast         17
      • 1.7.3.1 By feedstock 2025-2036        17
      • 1.7.3.2 By technology 2025-2036     18
      • 1.7.3.3 By alloy 2025-2036    20
  • 1.8        The Metal Additive Manufacturing Ecosystem         21

 

2             INTRODUCTION          23

  • 2.1        3D printing processes              23
    • 2.1.1    Material-Process Compatibility         24
  • 2.2        Metal Additive Manufacturing Adoption       25
  • 2.3        Market Evolution         27
  • 2.4        Metal AM Market Business Models  28
  • 2.5        Metal Printers Performance 30
    • 2.5.1    Build volume capabilities      31
    • 2.5.2    Build rate          31
    • 2.5.3    Z resolution     32
    • 2.5.4    XY Resolution 33
    • 2.5.5    Price vs build volume                33
    • 2.5.6    Price vs build rate        34
    • 2.5.7    Price vs Z resolution  35
    • 2.5.8    Build rate vs build volume     35
    • 2.5.9    Build rate vs Z resolution        36

 

3             METAL AM MARKET ANALYSIS             38

  • 3.1        Market Players in Metal AM Printers                38
  • 3.2        Market Players in Metal Materials and Powders      40
  • 3.3        Recent Financial Performance           42
  • 3.4        Economic conditions affecting the Metal AM Market          43
  • 3.5        Supply chain challenges        44
  • 3.6        International trade tensions and tariff implementations  45
  • 3.7        Technology Landscape           46
  • 3.8        Laser PBF Hardware Market 46
  • 3.9        Alloys  47
  • 3.10     Investment and Funding         48
  • 3.11     Market Trends                50
    • 3.11.1 Affordable 3D printing systems         50
    • 3.11.2 Large-format laser powder bed fusion systems      51
    • 3.11.3 Sustainability 52
    • 3.11.4 Electron beam melting technology  53
    • 3.11.5 The Metal AM market in China            55
    • 3.11.6 Development of metal binder jetting technology   55
    • 3.11.7 Service provision expansion 56
  • 3.12     3D Printing Service Bureaus 57
    • 3.12.1 Introduction    57
    • 3.12.2 Service bureau operations    58
    • 3.12.3 Design for additive manufacturing (DfAM) 60
    • 3.12.4 Challenges      62
    • 3.12.5 Companies     63
      • 3.12.5.1            Leading metal additive manufacturing service bureaus    63
      • 3.12.5.2            Part manufacturers   65
    • 3.12.6 In-house production 66

 

4             METAL PRINTING PROCESSES           69

  • 4.1. Metal printing technologies        69
    • 4.1.1    Powder bed fusion     75
      • 4.1.1.1 Direct metal laser sintering (DMLS) or selective laser melting (SLM)        75
        • 4.1.1.1.1           Overview           75
        • 4.1.1.1.2           Selective Laser Sintering (SLS)           75
        • 4.1.1.1.3           Selective Laser Melting (SLM)             75
        • 4.1.1.1.4           Capabilities    76
        • 4.1.1.1.5           Advantages & Limitations      77
      • 4.1.1.2 Electron beam melting (EBM)             77
        • 4.1.1.2.1           Overview           77
        • 4.1.1.2.2           Specifications and Performance Characteristics  77
    • 4.1.2    Directed energy deposition  78
      • 4.1.2.1 Powder (or blown powder)     78
        • 4.1.2.1.1           Overview           78
        • 4.1.2.1.2           System Capabilities and Applications          78
        • 4.1.2.1.3           Advantages & Limitations      79
      • 4.1.2.2 Wire      79
        • 4.1.2.2.1           Overview           79
        • 4.1.2.2.2           Capabilities and Applications            80
    • 4.1.3    Binder jetting  80
      • 4.1.3.1 Metal binder jetting    80
        • 4.1.3.1.1           Overview           80
        • 4.1.3.1.2           Processing       81
      • 4.1.3.2 Sand binder jetting     82
        • 4.1.3.2.1           Overview           82
        • 4.1.3.2.2           Advantages     82
        • 4.1.3.2.3           Sintering Optimization             83
    • 4.1.4    Ultrasonic additive manufacturing (UAM)   84
      • 4.1.4.1.1           Overview           84
      • 4.1.4.1.2           Characteristics and Capabilities      85
      • 4.1.4.1.3           Applications   85
  • 4.2        Emerging metal printing technologies           86
    • 4.2.1    Material Extrusion       87
      • 4.2.1.1 Metal-polymer filament (MPFE)         87
      • 4.2.1.2 Metal-polymer pellet 88
      • 4.2.1.3 Metal paste     89
    • 4.2.2    Digital light processing (DLP)              90
    • 4.2.3    Resin-Based Processes          91
    • 4.2.4    Material jetting              91
      • 4.2.4.1 Nanoparticle jetting (NPJ)      91
      • 4.2.4.2 Liquid metal or magnetohydrodynamic deposition              92
      • 4.2.4.3 Electrochemical deposition 93
      • 4.2.4.4 Material jetting              94

 

5             METAL MATERIALS FOR 3D PRINTING           95

  • 5.1        Metal powders              95
    • 5.1.1    Metal AM Feedstocks               95
    • 5.1.2    Powder morphology  96
    • 5.1.3    Powder production    97
      • 5.1.3.1 Atomization    99
      • 5.1.3.2 Electrolysis      101
    • 5.1.4    Material compatibility              101
    • 5.1.5    Powder suppliers        102
    • 5.1.6    Titanium powder          104
      • 5.1.6.1 Overview           104
      • 5.1.6.2 Companies     104
    • 5.1.7    Recycled titanium feedstocks            105
    • 5.1.8    Post-processing           106
    • 5.1.9    Barriers and limitations          107
  • 5.2        Other metal feedstocks          108
    • 5.2.1    Metal wire feedstocks              108
    • 5.2.2    Metal-polymer filaments and pellets             109
    • 5.2.3    Metal-photopolymer resins  110

 

6             COMPATIBLE METAL MATERIALS      112

  • 6.1        Alloy Systems 112
    • 6.1.1    Overview           112
    • 6.1.2    Properties         112
  • 6.2        Aluminum and aluminum alloys       113
    • 6.2.1    Overview           113
    • 6.2.2    Advanced aluminum alloys  114
    • 6.2.3    Aluminum alloy systems and metal-matrix composites   114
  • 6.3        Copper and bronze    115
    • 6.3.1    Overview           115
    • 6.3.2    Copper additive manufacturing        116
    • 6.3.3    Alloy development strategies              117
    • 6.3.4    Applications   118
  • 6.4        Cobalt and alloys        118
  • 6.5        Nickel alloy     119
    • 6.5.1    Inconel 625     119
    • 6.5.2    Inconel 718     120
  • 6.6        Precious metals and alloys  120
  • 6.7        Steel     121
    • 6.7.1    Maraging steel 1.2709             121
    • 6.7.2    15-5PH stainless steel             121
    • 6.7.3    17-4PH stainless steel             122
    • 6.7.4    316L stainless steel   123
  • 6.8        Titanium and alloys   123
  • 6.9        High entropy alloys    124
  • 6.10     Amorphous alloys      125
  • 6.11     Multi-material solutions         126
  • 6.12     Materials informatics               127
  • 6.13     Tungsten powder         128
  • 6.14     Nanomaterials              129

 

7             METAL 3D PRINTING MARKETS AND APPLICATIONS           131

  • 7.1        Aerospace and Defence         131
    • 7.1.1    Market overview           131
    • 7.1.2    Applications   132
      • 7.1.2.1 Fuel nozzles    132
      • 7.1.2.2 Propulsion systems   132
      • 7.1.2.3 Engine components  133
      • 7.1.2.4 Aircraft structural components         134
      • 7.1.2.5 Gearboxes       135
      • 7.1.2.6 Satellites           135
      • 7.1.2.7 Rockets              136
      • 7.1.2.8 Thermal management             137
  • 7.2        Medical              137
    • 7.2.1    Overview           137
    • 7.2.2    Applications   138
      • 7.2.2.1 Healthcare       138
      • 7.2.2.2 Medical Devices           138
        • 7.2.2.2.1           Titanium alloy systems            138
        • 7.2.2.2.2           Hip replacement          139
      • 7.2.2.3 Reconstructive surgery           139
      • 7.2.2.4 Implants           140
      • 7.2.2.5 Veterinary applications           140
      • 7.2.2.6 Dental 141
  • 7.3        Automotive      141
    • 7.3.1    Overview           141
    • 7.3.2    Applications   142
      • 7.3.2.1 Production components        142
      • 7.3.2.2 High-performance brake caliper       142
  • 7.4        Energy and oil & gas  142
    • 7.4.1    Overview           142
    • 7.4.2    Applications   143
      • 7.4.2.1 Turbine components 143
      • 7.4.2.2 High-temperature applications         143
  • 7.5        Railway and transportation  144
    • 7.5.1    Overview           144
    • 7.5.2    Applications   144
      • 7.5.2.1 Fleet maintenance     144
      • 7.5.2.2 Remote operations    144
  • 7.6        Mining and heavy industry    144
    • 7.6.1    Overview           144
    • 7.6.2    Applications   145
      • 7.6.2.1 Mining equipment       145
      • 7.6.2.2 Remote area applications     145
  • 7.7        Tooling and manufacturing   145
    • 7.7.1    Overview           145
    • 7.7.2    Applications   145
      • 7.7.2.1 Complex tooling          146
  • 7.8        Construction  146
    • 7.8.1    Overview           146
    • 7.8.2    Applications   146
      • 7.8.2.1 Facades            146
      • 7.8.2.2 Bridges               147
      • 7.8.2.3 Structural optimization applications              147
  • 7.9        Electronics and communications    147
    • 7.9.1    Overview           147
    • 7.9.2    Applications   147
      • 7.9.2.1 RF antennas   147
      • 7.9.2.2 Thermal management             147

 

8             COMPANY PROFILES                148 (92 company profiles)

 

9             APPENDIX        235

  • 9.1        Glossary           235
  • 9.2        Scope of report             237

 

10          REFERENCES 238

 

List of Tables

  • Table 1. Primary Categories of Metal Additive Manufacturing.      21
  • Table 2. Metal AM Technology Performance.            3
  • Table 3. Investment Activity 2024.   4
  • Table 4. Metal Additive Manufacturing Growth Drivers and Restraints.   5
  • Table 5. Metal Additive Manufacturing Technology Trends.             9
  • Table 6. Global Market Forecast Summary 2025-2036 (USD Billions).    13
  • Table 7. Installed Base Forecast by Technology (Units).    14
  • Table 8. Global Hardware Revenue Forecast by Technology (USD Millions).       16
  • Table 9. Global Material Revenue Forecast by Feedstock Type (USD Millions) 2025-2036.       17
  • Table 10. Global Materials Forecast by Technology (USD Millions).          19
  • Table 11. Global Material Revenue Forecast by Alloy Category (USD Millions). 20
  • Table 12. Industry Ecosystem Key Players Analysis.            21
  • Table 13. Additive Manufacturing Process Categories and Fundamental Characteristics.        24
  • Table 14. Material-Process Compatibility Assessment.    24
  • Table 15. Value Proposition Analysis Across Application Domains.          26
  • Table 16. Metal AM Historical Development Timeline and Characteristics.         27
  • Table 17. Business Model Analysis and Comparison.        29
  • Table 18. Technology Performance Overview and Comparison.  30
  • Table 19. Maximum Build Volume Capabilities and Scaling Characteristics.      31
  • Table 20. Build Rate Performance Comparison and Analysis        32
  • Table 21. Z-Resolution Capabilities and Quality Impact.  32
  • Table 22. XY Resolution Performance and Applications.  33
  • Table 23. Price vs Build Volume Economic Analysis.          34
  • Table 24. Price vs Z Resolution Economic Analysis.            35
  • Table 25. Build Rate vs Build Volume Performance Matrix.              36
  • Table 26. Build Rate vs Z Resolution Trade-off Analysis     36
  • Table 27. Performance Extremes and Boundaries.               37
  • Table 28. Metal 3D Printer Companies and Products.         38
  • Table 29. Metal Materials and Powder Companies.             40
  • Table 30. Public Company Financial Performance 2024. 42
  • Table 31. Trade Policy Impact Assessment.              45
  • Table 32. Technology Market Share Evolution to 20236.   46
  • Table 33. Laser PBF Hardware Market Share.           47
  • Table 34. Investment Activity Analysis 2024.            48
  • Table 35. Private Funding Evolution 2021-2024.     49
  • Table 36. Affordable Metal AM System Categories.              51
  • Table 37. Large-format LPBF Capabilities and Applications.         52
  • Table 38. Large-format LPBF System Capabilities and Market.     52
  • Table 39. Sustainability in Metal AM Materials.       53
  • Table 40. Metal AM Service Market Segmentation and Growth Analysis.              56
  • Table 41. Service Bureau Categories and Capabilities.     58
  • Table 42. Service Bureau Core Functions.  59
  • Table 43. Service Bureau Value Proposition Analysis.        60
  • Table 44. DfAM Service Capabilities and Customer Benefits.       61
  • Table 45. Service Bureau Challenge Categories and Impact.         62
  • Table 46. Leading Metal AM Service Bureau Companies. 64
  • Table 47. Proprietary Technology Manufacturers Analysis.             66
  • Table 48. In-House Production Implementation Factors. 67
  • Table 49. Metal AM Technologies Comparison Table           71
  • Table 50. DMLS/SLM System Specifications and Capabilities.     76
  • Table 51. EBM Technology Specifications and Performance Characteristics.    77
  • Table 52. Powder DED System Capabilities and Applications       79
  • Table 53. Wire DED Technology Comparison and Capabilities.   80
  • Table 54. Metal Binder Jetting Process Chain Analysis.     81
  • Table 55. Sand Binder Jetting Capabilities and Economics.           83
  • Table 56. Binder Jetting Technology Enhancement Areas.               84
  • Table 57. UAM Process Characteristics and Capabilities.               85
  • Table 58. Emerging Technologies.    86
  • Table 59. MPFE System Capabilities and Market Positioning.       88
  • Table 60. Metal Pellet Extrusion Development Status.       88
  • Table 61. Metal Paste Extrusion Applications and Capabilities.  89
  • Table 62. Metal DLP Development Status and Capabilities.          90
  • Table 63. NPJ Technology Capabilities and Applications. 92
  • Table 64. Liquid Metal Deposition Technology Variants.   92
  • Table 65. Electrochemical Deposition Characteristics and Capabilities.              93
  • Table 66. Cold Spray Technology Applications and Capabilities. 94
  • Table 67. Metal AM Feedstock Options Comparison.         96
  • Table 68. Powder Morphology Characteristics and Impact.            97
  • Table 69. Metal Powder Production Techniques Comparison.      97
  • Table 70. Process Impact on Powder Characteristics.       98
  • Table 71. Quality Assessment Parameters.               99
  • Table 72. Atomization Technology Comparison and Characteristics.      100
  • Table 73. Atomization Process Impact on Powder Characteristics.           100
  • Table 74. Electrolytic Powder Production Assessment.    101
  • Table 75. Metal-Technology Compatibility Assessment.   102
  • Table 76. Metal Powder Suppliers by Category.       103
  • Table 77. Suppliers by Atomization Technology Specialization.   103
  • Table 78. Main Titanium Powder Suppliers.               104
  • Table 79. Secondary Titanium Powder Suppliers.  105
  • Table 80. Recycled Titanium Feedstock Options and Characteristics.    106
  • Table 81. Post-Processing Operations and Requirements.              107
  • Table 82. Powder Utilization Barriers and Impact Assessment.   108
  • Table 83. Metal Wire Feedstock Characteristics and Applications.           109
  • Table 84. Metal-Polymer Feedstock Systems Comparison.            110
  • Table 85. Metal-Photopolymer Resin Development Status              111
  • Table 86. Metal Alloy Categories and Key Characteristics.              112
  • Table 87. Aluminum Alloy Portfolio for Additive Manufacturing.  113
  • Table 88. Emerging Aluminum Alloy Development Status.              114
  • Table 89. Emerging Aluminum Materials Development.    115
  • Table 90. Copper Alloy Systems for Additive Manufacturing.         116
  • Table 91. Copper AM Technology Development Status.    117
  • Table 92. Copper Alloy Development Priorities and Status.            118
  • Table 93. Cobalt Alloy Systems for Additive Manufacturing.          119
  • Table 94. Precious Metal AM Applications and Characteristics.  121
  • Table 95. 15-5PH Stainless Steel Applications and Properties.    122
  • Table 96. Titanium Alloys for Additive Manufacturing.        124
  • Table 97. High Entropy Alloys for Additive Manufacturing.               125
  • Table 98. Amorphous Alloy Systems and Applications.     125
  • Table 99. Multi-Material AM Applications and Capabilities.           127
  • Table 100.Materials Informatics Implementation Status. 128
  • Table 101. Tungsten AM Applications.           129
  • Table 102. Nanomaterials in Metal AM Applications.          130
  • Table 103. Aerospace Metal AM Application Categories.  131
  • Table 104. GE Aviation Expanded AM Applications.             133
  • Table 105. Boeing 787 Titanium AM Applications. 134
  • Table 106. Satellite AM Applications and Requirements. 136
  • Table 107. Medical Titanium Alloy Systems and Applications.      139
  • Table 108. Automotive Metal AM Applications.       142
  • Table 109. Energy Sector Metal AM Applications.  143
  • Table 110. Railway and Transportation Applications.          144
  • Table 111. Mining and Heavy Industry Applications.           145
  • Table 112. Tooling and Manufacturing Applications.           145
  • Table 113. Construction Industry Applications.      146
  • Table 114. Electronics and Communications Applications.           147

 

List of Figures

  • Figure 1. Graphical representation of AM processes applicable to metals.          2
  • Figure 2. Global Market Forecast Summary 2025-2036 (USD Billions).  13
  • Figure 3. Installed Base Forecast by Technology (Units).  15
  • Figure 4. Global Hardware Revenue Forecast by Technology (USD Millions).     17
  • Figure 5. Global Material Revenue Forecast by Feedstock Type (USD Millions) 2025-2036.     18
  • Figure 6. Global Materials Forecast by Technology (USD Millions).           19
  • Figure 7. Global Material Revenue Forecast by Alloy Category (USD Millions). .                20
  • Figure 8. Workflow Diagram of Metal Additive Manufacturing.     23
  • Figure 9. AM based on Electron Beam Melting.       54
  • Figure 10. Metal Additive Manufacturing Technologies.     69
  • Figure 11. Schematic of SLS Process.           75
  • Figure 12. Selective Laser Melting.  76
  • Figure 13. Schematic of binder jetting.         81
  • Figure 14. Sheet Lamination AM by UAM technology.          85
  • Figure 15. Schematic of extrusion base AM technology.   87
  • Figure 16. 3D Systems Metal AM printers.  149
  • Figure 17. The AconityTWO from Aconity3D.             152
  • Figure 18. The Fusion S LPBF printer (left) paired with its integrated powder handling system.              155
  • Figure 19. AddUp Machine.  157
  • Figure 20.  MetalFab 300 Flex.             158
  • Figure 21. ADMAFLEX series.               159
  • Figure 22. AL3D-METAL.          162
  • Figure 23. BLT 3D printers.    168
  • Figure 24. The Studio System’s printer (left) and furnace (right). 172
  • Figure 25. EOS M 400 series.               177
  • Figure 26.  EP-M2050 3D metal printer.         178
  • Figure 27. Exaddon CERES Print System.    180
  • Figure 28. Grob GMP300.      190
  • Figure 29. LUMEX Avance-25.             194
  • Figure 30. MX3D’s M1 Metal AM System shown in multi-unit configuration.        199
  • Figure 31. SLM 500.   202
  • Figure 32. One Click Metal products.             204
  • Figure 33. pam o2 MC 3D printer.     207
  • Figure 34. Print Genius400 XL.           209
  • Figure 35. Conflux 1 printer. 210
  • Figure 36. RenAM 500.            211
  • Figure 37. Alba 500.  213
  • Figure 38. Sharebot metalONE.         216
  • Figure 39. MYSINT100.            217
  • Figure 40. The Sodick LPM325S.       219
  • Figure 41. SPEE3D printers.  220
  • Figure 42. The TKF1000 System from Titomic.         222
  • Figure 43. The AMCELL 8300 .            224
  • Figure 44.  TruPrint 3000.       226
  • Figure 45. ValCUn  Minerva. 227
  • Figure 46. The Sapphire XC. 228
  • Figure 47. To the left, the XM200G; to the right, the XM300G.        231
  • Figure 48. The X Carmel 5000.           232
  • Figure 49. iSLM160.   234

 

 

 

 

The Global Metal Additive Manufacturing Market 2026-2036
The Global Metal Additive Manufacturing Market 2026-2036
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The Global Metal Additive Manufacturing Market 2026-2036
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