A quick peek into the report
Table of Contents
EXECUTIVE SUMMARY
2.1 | Market Classification |
2.1.1 | Market Segmentation – By Material |
2.1.2 | Market Segmentation – By Technology |
2.1.3 | Market Segmentation – By Application |
2.1.4 | Market Segmentation – By Geography |
2.2 | Stakeholders |
2.3 | Assumptions & Limitations |
3.1 | Factor Analysis |
3.1.1 | Demand Side Factors |
3.1.2 | Supply Side Factors |
3.2 | Research Parameters |
3.3. | Report Writing & Flow |
3.4 | Market Size Estimation – Framework |
3.4.1 | Secondary Research |
3.4.2 | Primary Research |
3.4.3 | Data Traingulation |
3.4.3.1 | Bottom-Up Approach |
3.4.3.2 | Top-Down Approach |
3.4.3.3 | Traingulation |
4.1 | Snapshot |
4.2 | Drivers |
4.3 | Restraints |
4.4 | Opportunities |
4.5 | Challenges |
5.1 | Value Chain Analysis |
5.2 | Porters Five Forces Analysis |
5.2.1 | Barganing Power Of Buyers |
5.2.2 | Barganing Power Of Suppliers |
5.2.3 | Threat Of Substitues |
5.2.4 | Threat Of New Entrants |
5.2.5 | Intensity Of Competitive Rivalry |
6.1 | Development Strategies Adopted By Leading Players |
6.1.1 | New Product Launches |
6.1.2 | Acquisition |
6.1.3 | Partnership, Agreements, Collaborations, & Business Contracts |
6.1.4 | Other Developments |
7.1 | Introduction |
7.2 | Materials Market Snapshot |
7.3 | Metal & Metal Alloys |
7.4 | Polymers |
7.5 | Ceramics |
7.6 | Others |
8.1 | Introduction |
8.2 | Prosthetics |
8.2.1 | Market Statistics |
8.2.2 | Market By Geography |
8.2.3 | Key Developments |
8.3 | Medical Implants |
8.3.1 | Market Statistics |
8.3.2 | Market By Geography |
8.3.3 | Key Developments |
8.4 | Dental |
8.4.1 | Market Statistics |
8.4.2 | Market By Geography |
8.4.3 | Key Developments |
8.5 | Bio-Printing |
8.5.1 | Market Statistics |
8.5.2 | Market By Geography |
8.5.3 | Key Developments |
8.6 | Hearing & Audibility Aid |
8.6.1 | Market Statistics |
8.6.2 | Market By Geography |
8.6.3 | Key Developments |
8.7 | Others |
8.7.1 | Market Statistics |
9.1 | Introduction |
9.2 | Electron Beam Melting |
9.3 | Selective Laser Sintering |
9.4 | Fused Deposition Modelling |
9.5 | Binder Jetting |
9.6 | Polyjet Technology |
9.7 | Comparison – Photopolymerization & Fdm |
9.8 | Scanners |
10.1 | Introduction |
10.2 | Geographic Snapshot |
10.3 | Geographic Market Analysis – By Application |
10.4 | North America |
10.4.1 | U.S. |
10.5 | Europe |
10.5.1 | Germany |
10.5.2 | U.K. |
10.6 | Asia-Pacific |
10.6.1 | Japan |
10.6.2 | China |
10.7 | Rest Of The World |
10.7.1 | South America |
10.7.2 | Middle-East & Africa |
11.1 | Major Players |
11.1.1 | 3D Systems |
11.1.1.1 | Business Overview |
11.1.1.2 | Offerings |
11.1.1.3 | Application |
11.1.1.4 | Key Developments |
11.1.2 | Arcam Ab |
11.1.2.1 | Business Overview |
11.1.2.2 | Offerings |
11.1.2.3 | Key Developments |
11.1.3 | Renishaw plc. |
11.1.3.1 | Business Overview |
11.1.3.2 | Offerings |
11.1.3.3 | Application |
11.1.3.4 | Key Developments |
11.1.4 | Eos Gmbh |
11.1.4.1 | Business Overview |
11.1.4.2 | Offerings |
11.1.4.3 | Application |
11.1.4.4 | Key Developments |
11.1.5 | Concept Laser Gmbh |
11.1.5.1 | Business Overview |
11.1.5.2 | Offerings |
11.1.5.3 | Application |
11.1.5.4 | Key Developments |
11.1.6 | Envisiontec |
11.1.6.1 | Business Overview |
11.1.6.2 | Offerings |
11.1.6.3 | Application |
11.1.6.4 | Key Developments |
11.1.7 | Stratasys |
11.1.7.1 | Business Overview |
11.1.7.2 | Offerings |
11.1.7.3 | Application |
11.1.7.4 | Key Developments |
11.1.8 | Luxexel |
11.1.8.1 | Business Overview |
11.1.8.2 | Offerings |
11.1.8.3 | Application |
11.1.8.4 | Key Developments |
11.1.9 | Organovo |
11.1.9.1 | Business Overview |
11.1.9.2 | Offerings |
11.1.9.3 | Application |
11.1.9.4 | Key Developments |
11.1.10. | Voxeljet |
11.1.10.1 | Business Overview |
11.1.10.2 | Offerings |
11.1.10.3 | Application |
11.1.10.4 | Key Developments |
11.2 | Other Key Players |
11.2.1 | Ge Healthcare |
11.2.2 | Siemens Healthcare |
11.2.3 | Stryker |
11.2.4 | Bego Medical |
11.2.5 | Hitachi Medical |
11.2.6 | Philips Healthcare |
11.2.7 | 3t Rpd |
11.2.8 | Optomec |
11.2.9 | Trumpf |
12.1 | Related Reports |
12.2 | Abbreviation |
Report Description
The study gives a detailed analysis market size estimation and forecast of the 3D printers that are used in the different healthcare applications across geography. The study also refers to the market potential of different materials such as metal & metal alloys, polymers, and ceramics that are used printing direct parts in healthcare industry. The study also emphasizes on the 3D printing technologies adopted by different players in the market, some of which are SLS, FDM, EBM, and photo-polymerization among others.
According to BIS Research analysis, the 3D printing market revenue in healthcare application is expected to cross $3.89 billion mark by 2022, at an estimated CAGR of 21.9%, calculated between 2016 and 2022.
The report classifies the 3D printing market in the healthcare industry by application, materials and geography. The healthcare applications market is segmented into medical, dental implants, prosthetics, and hearing & audibility aid among others. The materials market is segmented into metal & metal alloys, polymers, and ceramics among others. The report gives detailed analysis of 3D printing in healthcare application by incorporating cost analysis of 3D printers and Porter’s five forces analysis of the market.
The report analyzes all the industry factors and market dynamics such as drivers, restraints, challenges, and opportunities with respect to the 3D printing healthcare market, which are helpful in identifying trends and key success factors for the industry. The report also analyzes the competitiveness of the market by understanding the key developments like mergers and acquisitions, product launch & developments, expansions, collaborations and partnerships that has shaped the 3D printing healthcare market.
Moreover, the report gives a detailed and complete analysis of overall 3D printing healthcare market by geography across the regions such as North America, Europe, Middle-East & Africa, Asia-Pacific, and South America and further sub-segmented by countries. The country specific market is estimated and the growth opportunities are identified.
Along with this, the report also profiles of all the key players across the ecosystem. The major players profiled in the report are 3D Systems, Arcam AB, Renishaw PLC., EoS GmBH, EnvisionTec, Stratasys, Luxexcel, Organovo, Voxeljet, GE Healthcare, Siemens Healthcare, Stryker, Bego Medical, Hitachi Medical, Philips Healthcare, Trumpf, Optomec, and 3T RPD.
Key Questions Answered in this Report
• What will be the market size in terms of value ($ million) and volume (unit shipment) of 3D printers in different healthcare applications and the anticipated growth rate by 2022?
• What is the current (2016) and forecasted (2022) market size of materials in 3D printing healthcare market and anticipated growth rate?
• What are the market trends in different geographies and how market will change in by different geographies by 2022?
• What is the comparison of 3D printers based on the technology used in healthcare application?
• What are the key market trends, growth strategies, and market dynamics?
• What are the factors driving and restraining the demand of 3D printers in the healthcare application?
• What are the challenges and opportunities to market growth?
• Who are the key players in this 3D printing market space?
• Who are the key material suppliers in this market?
• What are the market opportunities and threats faced by key vendors?
• What are the strengths and weaknesses of each of these key vendors?
Market Overview
The study involves segmentation of 3D printing healthcare industry based on technology, end-point application, various applicable materials, and geography. The market potential of 3D printing in healthcare industry has been analyzed on the basis of aforementioned segments. Based on deposition techniques, 3D printing technology catering to healthcare domain has been divided into Binder jetting, Wire Direct Energy Deposition (laser metal deposition using wire), Powder Injection Technology Laser Engineered Net Shaping, Direct Metal Deposition) and the most extensively used Powder Bed Fusion (Selective Laser Melting, Electron Beam Melting, Direct Metal Laser Sintering).
Though, these technologies have proved to be fast paced and cost effective when it comes to building prototypes, further research and technology up gradation is now being undertaken due to the fact that this manufacturing technique has attained widespread industrial adaptation, thereby finding its usage in large volume production. In addition to this, availability of industry grade 3D printing material has further contributed to the upliftment of 3D printing in the healthcare industry. Depending on the applicability of 3D printing technology, the study meticulously covers materials that are used as raw material for 3D printing in healthcare industry across various application verticals like prosthetics, medical implants, bio-printing, dental application among others.
Market growth and trends across different applications in the healthcare industry such as prosthetics, medical implants along with other applications market have been covered. Medical implants segment accounted for the highest market revenue in 2015. The growth trend in these application verticals has been studied across different geographical regions segmented into North America, Europe, Asia-Pacific, and Rest of the World. North America accounted for the highest market share in terms of revenue in 2015. It is expected to grow at a CAGR of 21.6% (2016-2022). It is expected that Asia-Pacific region will show highest CAGR of 23% (2016-2022). This growth can be attributed mainly to China and Japan with the Chinese market likely to grow at a CAGR of 23.5% from 2016 to 2022. The report presents a detailed market analysis of 3D printing healthcare industry by incorporating complete pricing and cost analysis of 3D printers and materials. Besides that, Porter’s analysis of the market has also been done.
The report deals with all the driving factors, restraints, and opportunities with respect to the 3D printing healthcare industry and the market, which are helpful in identifying trends and key success factors for the industry. Lastly, the current market competitiveness is covered with detailed competitive landscape and company profiles of all key players across the ecosystem. The report also formulates the entire value chain of the market, along with industry trends of 3D printing application segments and materials used with an emphasis on market timelines and technology roadmaps.