Industrial 3D Printing Market By Technology 2021 | IndustryARC
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Industrial 3D Printing Market
Industrial 3D Printing Market: By Technology(Stereolithography, Fuse deposition modeling, Selective laser sintering), By Material(Polymers, Metals & Alloys, Others), By Application(Industrial Products, Defense) & Geography-Forecast (2016-2021)
Report Code : ESR 0153
Published: 14 March, 2016   No. of pages: 151

  • Report Description
  • Table of Contents
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3D printing technology was introduced to the world in the year 1986, but gained importance from the year 1990. 3D printing is the process, wherein three dimensional solid objects are created from a 3D design. It is an additive process in which an object is created by laying down successive layers of material. Globally, demand for industrial 3D printing is being driven by higher accuracy per inch of part dimension, faster printing speed, and introduction of new materials.

This report identifies the global industrial 3D printing market size in for the year 2014-2016, and forecast of the same for year 2021. It also highlights the potential growth opportunities in the coming years, while also reviewing the market drivers, restraints, growth indicators, challenges, market dynamics, competitive landscape, and other key aspects with respect to industrial 3D printing market.

Industrial 3D Printing Market

Geographically, North America dominated the global industrial 3D printing market owing to higher usage of industrial 3D printing in the major industrial manufacturing, aerospace & Defense, and healthcare companies located in the U.S. In addition, financial support from the government and continuous technological advancements are also fuelling the growth in North America. North America is followed by Europe and Asia Pacific in terms of market share in 2015 in the global Industrial 3D Printing. Demand for the Industrial 3D Printing is expected to grow the fastest in the Asia Pacific region due to increasing extensive industrial base, government initiatives, and funding in R&D. Automotive end-use segment dominated the globaly Industrial 3D printing market.

This report segments global industrial 3D printing market on the basis of technology, material, application and regional market as follows:
This report on global industrial 3D printing market also covers major technologies used in 3D printing as: Stereolithography (SLA), Fuse deposition modeling (FDM), Selective laser sintering (SLS), Direct metal laser sintering (DMLS), Polyjet printing (MJP), Inkjet printing, Electron beam melting (EBM), Laser metal deposition (LMD), Direct light projection (DLP), Laminated object manufacturing (LOM) and Others

The industrial 3D printing market is also segmented into the kind of materials being used for 3D printing as follow: Polymers, Metal and Alloys, Ceramics and Others
  • The report is also segmented on the basis of end-use industry in which 3D printers are being used as follow: Industrial Products, Defense, Aerospace, Automotive, Healthcare, Education and Research and Others
  • This report has been further segmented into major regions, which includes detailed analysis of each region such as: North America, Europe, Asia-Pacific (APAC), and Rest of the World (RoW) covering all the major country level markets in each of the region.

This report identifies all the major companies operating in the Industrial 3D Printing market. Some of the major companies’ profiles in detail are as follows:
  • D Systems
  • Arcam AB
  • Autodesk, Inc.
  • Stratasys Ltd
  • ExOne
1. Industrial 3D Printing – Market Overview
2. Executive Summary
3. 
Industrial 3D Printing Market Landscape
   3.1. Market Share Analysis
   3.2. Comparative Analysis
   3.3. Product Benchmarking
   3.4. End User Profiling
   3.5. Top 5 Financials Analysis
4. Industrial 3D Printing– Market Forces
   4.1. Drivers
      4.1.1. Higher and better resolution as compared to conventional printers
      4.1.2. Reduction in development cost and time
   4.2. Restraints
      4.2.1. Cost of software required for 3D printing is high
      4.2.2. Lack of technical capabilities of additive manufacturing
   4.3. Opportunities
      4.3.1. Growing usage in medical science
   4.4. Challenges
   4.5. Porter’s Five Forces Analysis
      4.5.1. Bargaining Power of Suppliers
      4.5.2. Bargaining Power of Buyers
      4.5.3. Threat of New Entrants
      4.5.4. Threat of Substitutes
      4.5.5. Degree of Competition
5. Industrial 3D Printing Market– Strategic Analysis
   5.1. Value Chain Analysis
   5.2. Pricing Analysis
   5.3. Opportunities Analysis
   5.4. Product/Market Life Cycle Analysis
   5.5. Suppliers and Distributors
6. Industrial 3D Printing Market, By Technology
   6.1. Stereolithography (SLA)
   6.2. Fuse deposition modeling (FDM)
   6.3. Selective laser sintering (SLS)
   6.4. Direct metal laser sintering (DMLS)
   6.5. Polyjet printing (MJP)
   6.6. Inkjet printing
   6.7. Electron beam melting (EBM)
   6.8. Laser metal deposition (LMD)
   6.9. Direct light projection (DLP)
   6.10. Laminated object manufacturing (LOM)
   6.11. Others
7. Industrial 3D Printing Market, By Material
   7.1. Polymers
   7.2. Metals and Alloys
   7.3. Ceramics
   7.4. Others
8. Industrial 3D Printing Market, By Application
   8.1. Industrial Products
   8.2. Defense
   8.3. Aerospace
   8.4. Automotive
   8.5. Healthcare
   8.6. Education and Research
   8.7. Others
9. Industrial 3D Printing Market, By Geography
   9.1. Europe
      9.1.1. Germany
      9.1.2. France
      9.1.3. Italy
      9.1.4. Spain
      9.1.5. Russia
      9.1.6. U.K.
      9.1.7. Rest of Europe
   9.2. Asia Pacific
      9.2.1. China
      9.2.2. India
      9.2.3. Japan
      9.2.4. South Korea
      9.2.5. Rest of Asia-Pacific
   9.3. North America
      9.3.1. U.S.
      9.3.2. Canada
      9.3.3. Mexico
   9.4. Rest of the World (RoW)
      9.4.1. Brazil
      9.4.2. Rest of RoW
10. Industrial 3D Printing – Market Entropy
   10.1. Expansion
   10.2. Technological Developments
   10.3. Merger & Acquisitions, and Joint Ventures
   10.4. Supply- Contract
11. Company Profiles (Top 10 Companies)
   11.1. D Systems
      11.1.1. Introduction
      11.1.2. Financials
      11.1.3. Key Insights
      11.1.4. Key Strategy
      11.1.5. Product Portfolio
      11.1.6. SWOT Analysis
   11.2. Arcam AB
      11.2.1. Introduction
      11.2.2. Financials
      11.2.3. Key Insights
      11.2.4. Key Strategy
      11.2.5. Product Portfolio
      11.2.6. SWOT Analysis
   11.3. Autodesk, Inc.
      11.3.1. Introduction
      11.3.2. Financials
      11.3.3. Key Insights
      11.3.4. Key Strategy
      11.3.5. Product Portfolio
      11.3.6. SWOT Analysis
   11.4. Stratasys Ltd
      11.4.1. Introduction
      11.4.2. Financials
      11.4.3. Key Insights
      11.4.4. Key Strategy
      11.4.5. Product Portfolio
      11.4.6. SWOT Analysis
   11.5. ExOne
      11.5.1. Introduction
      11.5.2. Financials
      11.5.3. Key Insights
      11.5.4. Key Strategy
      11.5.5. Product Portfolio
      11.5.6. SWOT Analysis
   11.6. Hoganas AB
      11.6.1. Introduction
      11.6.2. Financials
      11.6.3. Key Insights
      11.6.4. Key Strategy
      11.6.5. Product Portfolio
      11.6.6. SWOT Analysis
   11.7. Optomec, Inc.
      11.7.1. Introduction
      11.7.2. Financials
      11.7.3. Key Insights
      11.7.4. Key Strategy
      11.7.5. Product Portfolio
      11.7.6. SWOT Analysis
   11.8. Organovo Holdings, Inc.
      11.8.1. Introduction
      11.8.2. Financials
      11.8.3. Key Insights
      11.8.4. Key Strategy
      11.8.5. Product Portfolio
      11.8.6. SWOT Analysis
   11.9. Ponoko
      11.9.1. Introduction
      11.9.2. Financials
      11.9.3. Key Insights
      11.9.4. Key Strategy
      11.9.5. Product Portfolio
      11.9.6. SWOT Analysis
   11.10. Voxeljet AG,
      11.10.1. Introduction
      11.10.2. Financials
      11.10.3. Key Insights
      11.10.4. Key Strategy
      11.10.5. Product Portfolio
      11.10.6. SWOT Analysis
*More than 40 Companies are profiled in this Research Report, Complete List available on Request*
"*Financials would be provided on a best efforts basis for private companies"
12. Appendix

   12.1. Abbreviations
   12.2. Sources
   12.3. Research Methodology
   12.4. Expert Insights
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