表紙
市場調查報告書

航太產業的積層製造 (AM)的全球市場

Aerospace Additive Manufacturing

出版商 Global Industry Analysts, Inc. 商品編碼 892663
出版日期 內容資訊 英文 359 Pages
商品交期: 最快1-2個工作天內
價格
航太產業的積層製造 (AM)的全球市場 Aerospace Additive Manufacturing
出版日期: 2019年12月01日內容資訊: 英文 359 Pages
簡介

本報告提供航太產業上積層製造 (AM)的市場調查,市場定義和概要,市場成長的各種影響因素分析,技術、功能趨勢,企業及企業間的配合措施,競爭企業與市場佔有率,世界及各地區、主要國家的市場規模的變化與預測,主要企業簡介等資訊彙整。

第1章 調查手法

第2章 摘要整理

  • 市場概要
    • 全球企業佔有率
      • 企業佔有率方案:成果、預測
  • 主要企業
  • 市場趨勢 & 成長推動因素
  • 全球市場的展望

第3章 市場分析

  • 美國
  • 加拿大
  • 日本
  • 中國
  • 歐洲
    • 法國
    • 德國
    • 義大利
    • 英國
    • 其他
  • 亞太地區
  • 其他地區

第4章 競爭企業

  • 3D SYSTEMS CORPORATION
  • ARCAM AB
  • CARPENTER TECHNOLOGY CORPORATION
  • EOS GMBH
  • EXONE GMBH
  • OPTOMEC
  • RENISHAW PLC
  • STRATASYS
  • VOXELJET AG

第5章 調查資料

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目錄
Product Code: MCP10098

The global market for Aerospace Additive Manufacturing is projected to reach US$2.5 billion by 2025, driven by increasing investments in the technology by aircraft OEMs and component suppliers. Players in the industry currently operate in a difficult market environment made challenging by factors such as taut economic climate that does not favor resource inefficiencies and wastages, rising competition, financial and budgetary constraints, growing burden of regulatory compliance, threat of disruption posed by digitization and globalization, and challenges in information and operations management. Manufacturers and service providers in the industry feel the competitive heat to innovate engineering and manufacturing processes and optimize supply chain to reduce costs, optimize production cycle and enhance efficiencies. The convergence of myriad disruptive factors is fundamentally changing the structure and competitive dynamics of the aerospace industry, necessitating changes in business models for survival in a rapidly transforming landscape. Additive manufacturing is therefore becoming an enterprise strategy. In this regard, a key advantage of additive manufacturing is the ability to create and produce intricate components and sub-assemblies. It also enables parts consolidation as against the traditional need for several separate components. Additive manufacturing machines therefore have the potential to emerge into a "supply chain in a box" phenomenon, allowing aerospace companies to enjoy supply chain management agility.

Other disruptive benefits offered by additive manufacturing include ability to cost-effectively manufacture complex low volume aircraft parts; reduces manufacturing wastages; lower energy usage; enables easy changes or revisions in product design; elimination of challenges involved in achieving economies of scale; purges the need to invest in expensive tooling machines; manufacturing can be made compatible with a wide variety of plastics, metals and composites without any process modifications; component customization becomes cheaper; enables collaborative engineering which in turn will greatly minimize product-launch risk; and large centralized factories with specialized assembly lines will quickly become obsolete. Entry barriers into the aerospace manufacturing sector will now be lower as additive manufacturing eliminates the need for complex manufacturing equipment and multi-tiered production processes. Production can be scaled-up as per need without major CAPEX commitments. Continuous innovation in technology is helping drive down prices of additive manufacturing machines. The rise of Ceramics 3D printing as a revolution in additive manufacturing is also a key noteworthy growth trend in the market, especially against the backdrop of increased use of advanced ceramic materials in aerospace manufacturing. Ceramics being lighter than metal has long been an attractive material technology in aerospace manufacturing. With continuous innovations in ceramic engineering overcoming inherent drawbacks such as zero ductility and lower tensile strength, viable applications in aerospace design and manufacturing is continuing to grow. Traditional machining of ceramics is challenging and carries a high risk of causing the material to lose structural integrity. Rise of ceramic 3D printing will therefore accelerate the use of ceramic materials in the aerospace industry while simultaneously driving growth of additive manufacturing technology. The United States and Europe represent large markets worldwide with a combined share of 65.8% of the market. The United States also ranks as the fastest growing market with a CAGR of 19.7% over the analysis period supported by the governments focus on increasing domestic manufacturing competitiveness by accelerating adoption of additive manufacturing technologies. "America Makes", the countrys leading organization dedicated to encouraging innovation in additive manufacturing recently released the "Standardization Roadmap for Additive Manufacturing, Version 1.0" for myriad industries that include even aerospace.

Competitors identified in this market include, among others, 3D Systems Inc., Arcam EBM, Arconic Inc., Concept Laser GmbH, CRP Technology S.r.l, EOS, ExOne, GE Additive, a part of General Electric Company (USA, GKN Additive, Optomec Inc., Stratasys Ltd.

TABLE OF CONTENTS

I. INTRODUCTION, METHODOLOGY & REPORT SCOPE 1

II. EXECUTIVE SUMMARY 11

1. MARKET OVERVIEW 11

  • Additive Manufacturing: A Transformative Technology 11
  • Global Aerospace Additive Manufacturing on a Growth Trajectory 11
  • Market Restraints 13
  • Aircraft Manufacturing Leads the Aerospace AM Market 13
  • US at the Forefront of Growth in Aerospace AM Market 14
  • Additive Manufacturing Gains Interest among Aircraft OEMs 14
  • Application of 3D Printing in Aerospace Industry 16
  • List of Select 3D Printing Materials for Aerospace Applications 16
  • Benefits of Additive Manufacturing for Aerospace Manufacturing 16
  • Use of Additive Metal Manufacturing in the Replacement Market 17
  • Aerospace Additive Manufacturing by Technology 18
  • Global Competitor Market Shares 20
  • Aerospace Additive Manufacturing Competitor Market Share Scenario Worldwide (in %): 2019 20

2. FOCUS ON SELECT PLAYERS 21

  • 3D Systems, Inc. (USA) 21
  • Arcam EBM (Sweden) 21
  • Arconic Inc. (USA) 21
  • Concept Laser GmbH (Germany) 22
  • CRP Technology S.r.l (Italy) 22
  • EOS (Germany) 22
  • ExOne (USA) 22
  • GE Additive, a part of General Electric Company (USA) 23
  • GKN Additive (UK) 23
  • Optomec, Inc., (USA) 23
  • Stratasys Ltd. (USA) 23

3. MARKET TRENDS & DRIVERS 24

  • Steady Growth in Air Passenger Traffic and Demand for Modern Aircraft Drives Opportunities 24
  • Global Commercial Aircraft Fleet Size (in Units) by Aircraft Type for the Years 2018 and 2038 25
  • Global Commercial Aircraft Fleet Size (in Units) by Geographic Region for the Years 2018 & 2038 26
  • Global Air Traffic Demand: Number of Air Passengers in Billion for the Years 2011 to 2025F 27
  • Business & General Aviation Segment Poised to Lead Future Growth in the Additive Manufacturing Market 27
  • Number of General Aviation Aircrafts Produced Worldwide for the Years 2010, 2012, 2014, 2016 and 2018 28
  • Global General Aviation Market: Revenue Share (in %) by Aircraft Type for 2019 29
  • Growing Role of Additive Manufacturing in Commercial Aircraft MRO 29
  • Recent Strategic Alliances between Companies Foster Innovations 30
  • Wire Arc Additive Manufacturing Delivers Low Buy-To-Fly Ratios 30
  • H-WAAM Technology Facilitates 3D printing of Large Metal Parts 31
  • 3-D Printed Plastic Additives Gaining Traction in Commercial Aviation Sector 32
  • Metal Printing Materials to Outdo Plastic Materials 32
  • Commonly Used Materials for 3D Printing by Various Printing Processes 33
  • Increasing R&D Focus on Print Materials 33
  • Graphene: A Material with Enormous Potential 34

4. GLOBAL MARKET PERSPECTIVE 35

  • TABLE 1: Aerospace Additive Manufacturing Global Market Estimates and Forecasts in US$ Thousand by Region/Country: 2018-2025 35
  • TABLE 2: Aerospace Additive Manufacturing Global Retrospective Market Scenario in US$ Thousand by Region/Country: 2009-2017 36
  • TABLE 3: Aerospace Additive Manufacturing Market Share Shift across Key Geographies Worldwide: 2009 VS 2019 VS 2025 37
  • TABLE 4: Metal Alloy (Material Type) World Market by Region/Country in US$ Thousand: 2018 to 2025 38
  • TABLE 5: Metal Alloy (Material Type) Historic Market Analysis by Region/Country in US$ Thousand: 2009 to 2017 39
  • TABLE 6: Metal Alloy (Material Type) Market Share Breakdown of Worldwide Sales by Region/Country: 2009 VS 2019 VS 2025 40
  • TABLE 7: Rubber (Material Type) Potential Growth Markets Worldwide in US$ Thousand: 2018 to 2025 41
  • TABLE 8: Rubber (Material Type) Historic Market Perspective by Region/Country in US$ Thousand: 2009 to 2017 42
  • TABLE 9: Rubber (Material Type) Market Sales Breakdown by Region/Country in Percentage: 2009 VS 2019 VS 2025 43
  • TABLE 10: Plastic (Material Type) Geographic Market Spread Worldwide in US$ Thousand: 2018 to 2025 44
  • TABLE 11: Plastic (Material Type) Region Wise Breakdown of Global Historic Demand in US$ Thousand: 2009 to 2017 45
  • TABLE 12: Plastic (Material Type) Market Share Distribution in Percentage by Region/Country: 2009 VS 2019 VS 2025 46
  • TABLE 13: Other Material Types (Material Type) World Market Estimates and Forecasts by Region/Country in US$ Thousand: 2018 to 2025 47
  • TABLE 14: Other Material Types (Material Type) Market Historic Review by Region/Country in US$ Thousand: 2009 to 2017 48
  • TABLE 15: Other Material Types (Material Type) Market Share Breakdown by Region/Country: 2009 VS 2019 VS 2025 49
  • TABLE 16: Aircraft (Platform) World Market by Region/Country in US$ Thousand: 2018 to 2025 50
  • TABLE 17: Aircraft (Platform) Historic Market Analysis by Region/Country in US$ Thousand: 2009 to 2017 51
  • TABLE 18: Aircraft (Platform) Market Share Distribution in Percentage by Region/Country: 2009 VS 2019 VS 2025 52
  • TABLE 19: Unmanned Aerial Vehicle (UAV) (Platform) World Market Estimates and Forecasts in US$ Thousand by Region/Country: 2018 to 2025 53
  • TABLE 20: Unmanned Aerial Vehicle (UAV) (Platform) Market Worldwide Historic Review by Region/Country in US$ Thousand: 2009 to 2017 54
  • TABLE 21: Unmanned Aerial Vehicle (UAV) (Platform) Market Percentage Share Distribution by Region/Country: 2009 VS 2019 VS 2025 55
  • TABLE 22: Spacecraft (Platform) Market Opportunity Analysis Worldwide in US$ Thousand by Region/Country: 2018 to 2025 56
  • TABLE 23: Spacecraft (Platform) Global Historic Demand in US$ Thousand by Region/Country: 2009 to 2017 57
  • TABLE 24: Spacecraft (Platform) Market Share Distribution in Percentage by Region/Country: 2009 VS 2019 VS 2025 58
  • TABLE 25: Engine (Application) Global Opportunity Assessment in US$ Thousand by Region/Country: 2018-2025 59
  • TABLE 26: Engine (Application) Historic Sales Analysis in US$ Thousand by Region/Country: 2009-2017 60
  • TABLE 27: Engine (Application) Percentage Share Breakdown of Global Sales by Region/Country: 2009 VS 2019 VS 2025 61
  • TABLE 28: Structural (Application) Worldwide Sales in US$ Thousand by Region/Country: 2018-2025 62
  • TABLE 29: Structural (Application) Historic Demand Patterns in US$ Thousand by Region/Country: 2009-2017 63
  • TABLE 30: Structural (Application) Market Share Shift across Key Geographies: 2009 VS 2019 VS 2025 64
  • TABLE 31: Other Applications (Application) Global Market Estimates & Forecasts in US$ Thousand by Region/Country: 2018-2025 65
  • TABLE 32: Other Applications (Application) Retrospective Demand Analysis in US$ Thousand by Region/Country: 2009-2017 66
  • TABLE 33: Other Applications (Application) Market Share Breakdown by Region/Country: 2009 VS 2019 VS 2025 67

III. MARKET ANALYSIS 68

  • GEOGRAPHIC MARKET ANALYSIS 68
  • UNITED STATES 68
  • TABLE 34: Aerospace Additive Manufacturing Market in the United States in US$ Thousand by Material Type: 2018-2025 68
  • TABLE 35: Aerospace Additive Manufacturing Historic Demand Patterns in the United States in US$ Thousand by Material Type: 2009-2017 69
  • TABLE 36: United States Aerospace Additive Manufacturing Market Share Breakdown by Material Type: 2009 VS 2019 VS 2025 70
  • TABLE 37: Aerospace Additive Manufacturing Market in US$ Thousand in the United States by Platform: 2018-2025 71
  • TABLE 38: United States Aerospace Additive Manufacturing Market Retrospective Analysis in US$ Thousand by Platform: 2009-2017 72
  • TABLE 39: United States Aerospace Additive Manufacturing Market Share Breakdown by Platform: 2009 VS 2019 VS 2025 73
  • TABLE 40: United States Aerospace Additive Manufacturing Latent Demand Forecasts in US$ Thousand by Application: 2018 to 2025 74
  • TABLE 41: Aerospace Additive Manufacturing Historic Demand Patterns in the United States by Application in US$ Thousand for 2009-2017 75
  • TABLE 42: Aerospace Additive Manufacturing Market Share Breakdown in the United States by Application: 2009 VS 2019 VS 2025 76
  • CANADA 77
  • TABLE 43: Canadian Aerospace Additive Manufacturing Market Estimates and Forecasts in US$ Thousand by Material Type: 2018-2025 77
  • TABLE 44: Aerospace Additive Manufacturing Market in Canada: Historic Analysis in US$ Thousand by Material Type for the period 2009-2017 78
  • TABLE 45: Canadian Aerospace Additive Manufacturing Market Shares in Percentages by Material Type: 2009 VS 2019 VS 2025 79
  • TABLE 46: Aerospace Additive Manufacturing Market Analysis in Canada in US$ Thousand by Platform: 2018-2025 80
  • TABLE 47: Aerospace Additive Manufacturing Market in Canada: Historic Review in US$ Thousand by Platform for the Period 2009-2017 81
  • TABLE 48: Canadian Aerospace Additive Manufacturing Market Share Breakdown by Platform: 2009 VS 2019 VS 2025 82
  • TABLE 49: Canadian Aerospace Additive Manufacturing Market Quantitative Demand Analysis in US$ Thousand by Application: 2018 to 2025 83
  • TABLE 50: Aerospace Additive Manufacturing Market in Canada: Summarization of Historic Demand Patterns in US$ Thousand by Application for 2009-2017 84
  • TABLE 51: Canadian Aerospace Additive Manufacturing Market Share Analysis by Application: 2009 VS 2019 VS 2025 85
  • JAPAN 86
  • TABLE 52: Japanese Aerospace Additive Manufacturing Market Estimates and Projections in US$ Thousand by Material Type: 2018-2025 86
  • TABLE 53: Aerospace Additive Manufacturing Demand Patterns in Japan in US$ Thousand by Material Type: 2009-2017 87
  • TABLE 54: Japanese Aerospace Additive Manufacturing Market Share in Percentages by Material Type: 2009 VS 2019 VS 2025 88
  • TABLE 55: Japanese Medium & Long-Term Outlook for Aerospace Additive Manufacturing Market in US$ Thousand by Platform: 2018-2025 89
  • TABLE 56: Aerospace Additive Manufacturing Market in Japan in US$ Thousand by Platform: 2009-2017 90
  • TABLE 57: Japanese Aerospace Additive Manufacturing Market Percentage Share Distribution by Platform: 2009 VS 2019 VS 2025 91
  • TABLE 58: Japanese Demand Estimates and Forecasts for Aerospace Additive Manufacturing in US$ Thousand by Application: 2018 to 2025 92
  • TABLE 59: Japanese Aerospace Additive Manufacturing Market in US$ Thousand by Application: 2009-2017 93
  • TABLE 60: Aerospace Additive Manufacturing Market Share Shift in Japan by Application: 2009 VS 2019 VS 2025 94
  • CHINA 95
  • TABLE 61: Chinese Demand Estimates and Forecasts for Aerospace Additive Manufacturing Market in US$ Thousand by Material Type: 2018-2025 95
  • TABLE 62: Aerospace Additive Manufacturing Historic Demand Scenario in China in US$ Thousand by Material Type: 2009-2017 96
  • TABLE 63: Chinese Aerospace Additive Manufacturing Market Share Breakdown by Material Type: 2009 VS 2019 VS 2025 97
  • TABLE 64: Aerospace Additive Manufacturing Market Estimates and Forecasts in China in US$ Thousand by Platform: 2018-2025 98
  • TABLE 65: Chinese Aerospace Additive Manufacturing Retrospective Market Scenario in US$ Thousand by Platform: 2009-2017 99
  • TABLE 66: Aerospace Additive Manufacturing Market in China: Percentage Share Analysis by Platform for 2009, 2019, and 2025 100
  • TABLE 67: Chinese Demand for Aerospace Additive Manufacturing in US$ Thousand by Application: 2018 to 2025 101
  • TABLE 68: Aerospace Additive Manufacturing Market Review in China in US$ Thousand by Application: 2009-2017 102
  • TABLE 69: Chinese Aerospace Additive Manufacturing Market Share Breakdown by Application: 2009 VS 2019 VS 2025 103
  • EUROPE 104
  • TABLE 70: European Aerospace Additive Manufacturing Market Demand Scenario in US$ Thousand by Region/Country: 2018-2025 104
  • TABLE 71: Aerospace Additive Manufacturing Market in Europe: A Historic Market Perspective in US$ Thousand by Region/Country for the Period 2009-2017 105
  • TABLE 72: European Aerospace Additive Manufacturing Market Share Shift by Region/Country: 2009 VS 2019 VS 2025 106
  • TABLE 73: Aerospace Additive Manufacturing Demand Potential in Europe in US$ Thousand by Material Type: 2018-2025 107
  • TABLE 74: European Aerospace Additive Manufacturing Historic Market Analysis in US$ Thousand by Material Type: 2009-2017 108
  • TABLE 75: Aerospace Additive Manufacturing Market in Europe : Breakdown of Sales by Material Type for 2009, 2019, and 2025 109
  • TABLE 76: European Aerospace Additive Manufacturing Market Assessment in US$ Thousand by Platform: 2018-2025 110
  • TABLE 77: European Aerospace Additive Manufacturing Historic Market Review in US$ Thousand by Platform: 2009-2017 111
  • TABLE 78: Aerospace Additive Manufacturing Market in Europe: Percentage Breakdown of Sales by Platform for 2009, 2019, and 2025 112
  • TABLE 79: European Aerospace Additive Manufacturing Addressable Market Opportunity in US$ Thousand by Application: 2018-2025 113
  • TABLE 80: Aerospace Additive Manufacturing Market in Europe: Summarization of Historic Demand in US$ Thousand by Application for the Period 2009-2017 114
  • TABLE 81: European Aerospace Additive Manufacturing Market Share Analysis by Application: 2009 VS 2019 VS 2025 115
  • FRANCE 116
  • TABLE 82: Aerospace Additive Manufacturing Recent Past, Current & Future Market Analysis in France in US$ Thousand by Material Type: 2018-2025 116
  • TABLE 83: French Aerospace Additive Manufacturing Market: Historic Review in US$ Thousand by Material Type for the Period 2009-2017 117
  • TABLE 84: French Aerospace Additive Manufacturing Market Share Shift by Material Type: 2009 VS 2019 VS 2025 118
  • TABLE 85: French Aerospace Additive Manufacturing Market Estimates and Projections in US$ Thousand by Platform: 2018-2025 119
  • TABLE 86: French Aerospace Additive Manufacturing Historic Market Analysis in US$ Thousand by Platform: 2009-2017 120
  • TABLE 87: French Aerospace Additive Manufacturing Market Share Breakdown by Platform: 2009 VS 2019 VS 2025 121
  • TABLE 88: Aerospace Additive Manufacturing Quantitative Demand Analysis in France in US$ Thousand by Application: 2018-2025 122
  • TABLE 89: French Aerospace Additive Manufacturing Historic Market Review in US$ Thousand by Application: 2009-2017 123
  • TABLE 90: French Aerospace Additive Manufacturing Market Share Analysis: A 17-Year Perspective by Application for 2009, 2019, and 2025 124
  • GERMANY 125
  • TABLE 91: German Aerospace Additive Manufacturing Market Estimates and Projections in US$ Thousand by Material Type: 2018-2025 125
  • TABLE 92: Aerospace Additive Manufacturing Market in Germany: Historic Demand Analysis in US$ Thousand by Material Type for the Period 2009-2017 126
  • TABLE 93: German Aerospace Additive Manufacturing Market Share Distribution by Material Type: 2009 VS 2019 VS 2025 127
  • TABLE 94: German Aerospace Additive Manufacturing Latent Demand Forecasts in US$ Thousand by Platform: 2018-2025 128
  • TABLE 95: Aerospace Additive Manufacturing Market in Germany: A Historic Perspective by Platform in US$ Thousand for the Period 2009-2017 129
  • TABLE 96: German Aerospace Additive Manufacturing Market Share Breakdown by Platform: 2009 VS 2019 VS 2025 130
  • TABLE 97: Aerospace Additive Manufacturing Market in Germany: Annual Sales Estimates and Forecasts in US$ Thousand by Application for the Period 2018-2025 131
  • TABLE 98: German Aerospace Additive Manufacturing Market in Retrospect in US$ Thousand by Application: 2009-2017 132
  • TABLE 99: Aerospace Additive Manufacturing Market Share Distribution in Germany by Application: 2009 VS 2019 VS 2025 133
  • ITALY 134
  • TABLE 100: Italian Demand Estimates and Forecasts for Aerospace Additive Manufacturing Market in US$ Thousand by Material Type: 2018-2025 134
  • TABLE 101: Aerospace Additive Manufacturing Historic Demand Scenario in Italy in US$ Thousand by Material Type: 2009-2017 135
  • TABLE 102: Italian Aerospace Additive Manufacturing Market Share Breakdown by Material Type: 2009 VS 2019 VS 2025 136
  • TABLE 103: Aerospace Additive Manufacturing Market Estimates and Forecasts in Italy in US$ Thousand by Platform: 2018-2025 137
  • TABLE 104: Italian Aerospace Additive Manufacturing Retrospective Market Scenario in US$ Thousand by Platform: 2009-2017 138
  • TABLE 105: Aerospace Additive Manufacturing Market in Italy: Percentage Share Analysis by Platform for 2009, 2019, and 2025 139
  • TABLE 106: Italian Demand for Aerospace Additive Manufacturing in US$ Thousand by Application: 2018 to 2025 140
  • TABLE 107: Aerospace Additive Manufacturing Market Review in Italy in US$ Thousand by Application: 2009-2017 141
  • TABLE 108: Italian Aerospace Additive Manufacturing Market Share Breakdown by Application: 2009 VS 2019 VS 2025 142
  • UNITED KINGDOM 143
  • TABLE 109: United Kingdom Aerospace Additive Manufacturing Market Estimates and Projections in US$ Thousand by Material Type: 2018-2025 143
  • TABLE 110: Aerospace Additive Manufacturing Demand Patterns in the United Kingdom in US$ Thousand by Material Type: 2009-2017 144
  • TABLE 111: United Kingdom Aerospace Additive Manufacturing Market Share in Percentages by Material Type: 2009 VS 2019 VS 2025 145
  • TABLE 112: United Kingdom Medium & Long-Term Outlook for Aerospace Additive Manufacturing Market in US$ Thousand by Platform: 2018-2025 146
  • TABLE 113: Aerospace Additive Manufacturing Market in the United Kingdom in US$ Thousand by Platform: 2009-2017 147
  • TABLE 114: United Kingdom Aerospace Additive Manufacturing Market Percentage Share Distribution by Platform: 2009 VS 2019 VS 2025 148
  • TABLE 115: United Kingdom Demand Estimates and Forecasts for Aerospace Additive Manufacturing in US$ Thousand by Application: 2018 to 2025 149
  • TABLE 116: United Kingdom Aerospace Additive Manufacturing Market in US$ Thousand by Application: 2009-2017 150
  • TABLE 117: Aerospace Additive Manufacturing Market Share Shift in the United Kingdom by Application: 2009 VS 2019 VS 2025 151
  • REST OF EUROPE 152
  • TABLE 118: Aerospace Additive Manufacturing Demand Potential in Rest of Europe in US$ Thousand by Material Type: 2018-2025 152
  • TABLE 119: Rest of Europe Aerospace Additive Manufacturing Historic Market Analysis in US$ Thousand by Material Type: 2009-2017 153
  • TABLE 120: Aerospace Additive Manufacturing Market in Rest of Europe: Breakdown of Sales by Material Type for 2009, 2019, and 2025 154
  • TABLE 121: Rest of Europe Aerospace Additive Manufacturing Market Assessment in US$ Thousand by Platform: 2018-2025 155
  • TABLE 122: Rest of Europe Aerospace Additive Manufacturing Historic Market Review in US$ Thousand by Platform: 2009-2017 156
  • TABLE 123: Aerospace Additive Manufacturing Market in Rest of Europe: Percentage Breakdown of Sales by Platform for 2009, 2019, and 2025 157
  • TABLE 124: Rest of Europe Aerospace Additive Manufacturing Addressable Market Opportunity in US$ Thousand by Application: 2018-2025 158
  • TABLE 125: Aerospace Additive Manufacturing Market in Rest of Europe: Summarization of Historic Demand in US$ Thousand by Application for the Period 2009-2017 159
  • TABLE 126: Rest of Europe Aerospace Additive Manufacturing Market Share Analysis by Application: 2009 VS 2019 VS 2025 160
  • ASIA-PACIFIC 161
  • TABLE 127: Aerospace Additive Manufacturing Recent Past, Current & Future Market Analysis in Asia-Pacific in US$ Thousand by Material Type: 2018-2025 161
  • TABLE 128: Asia-Pacific Aerospace Additive Manufacturing Market: Historic Review in US$ Thousand by Material Type for the Period 2009-2017 162
  • TABLE 129: Asia-Pacific Aerospace Additive Manufacturing Market Share Shift by Material Type: 2009 VS 2019 VS 2025 163
  • TABLE 130: Asia-Pacific Aerospace Additive Manufacturing Market Estimates and Projections in US$ Thousand by Platform: 2018-2025 164
  • TABLE 131: Asia-Pacific Aerospace Additive Manufacturing Historic Market Analysis in US$ Thousand by Platform: 2009-2017 165
  • TABLE 132: Asia-Pacific Aerospace Additive Manufacturing Market Share Breakdown by Platform: 2009 VS 2019 VS 2025 166
  • TABLE 133: Aerospace Additive Manufacturing Quantitative Demand Analysis in Asia-Pacific in US$ Thousand by Application: 2018-2025 167
  • TABLE 134: Asia-Pacific Aerospace Additive Manufacturing Historic Market Review in US$ Thousand by Application: 2009-2017 168
  • TABLE 135: Asia-Pacific Aerospace Additive Manufacturing Market Share Analysis: A 17-Year Perspective by Application for 2009, 2019, and 2025 169
  • REST OF WORLD 170
  • TABLE 136: Rest of World Aerospace Additive Manufacturing Market Estimates and Forecasts in US$ Thousand by Material Type: 2018-2025 170
  • TABLE 137: Aerospace Additive Manufacturing Market in Rest of World: Historic Analysis in US$ Thousand by Material Type for the period 2009-2017 171
  • TABLE 138: Rest of World Aerospace Additive Manufacturing Market Shares in Percentages by Material Type: 2009 VS 2019 VS 2025 172
  • TABLE 139: Aerospace Additive Manufacturing Market Analysis in Rest of World in US$ Thousand by Platform: 2018-2025 173
  • TABLE 140: Aerospace Additive Manufacturing Market in Rest of World: Historic Review in US$ Thousand by Platform for the Period 2009-2017 174
  • TABLE 141: Rest of World Aerospace Additive Manufacturing Market Share Breakdown by Platform: 2009 VS 2019 VS 2025 175
  • TABLE 142: Rest of World Aerospace Additive Manufacturing Market Quantitative Demand Analysis in US$ Thousand by Application: 2018 to 2025 176
  • TABLE 143: Aerospace Additive Manufacturing Market in Rest of World: Summarization of Historic Demand Patterns in US$ Thousand by Application for 2009-2017 177
  • TABLE 144: Rest of World Aerospace Additive Manufacturing Market Share Analysis by Application: 2009 VS 2019 VS 2025 178

IV. COMPETITION

  • Total Companies Profiled : 36 (including Divisions/Subsidiaries - 37)
  • AEROSPACE ADDITIVE MANUFACTURING MCP10098
  • CONTENTS