Technological readiness, competitive intensity, regulatory compliance, potential for disruption, trends, outlook and strategic implications for the global medical device for 3D printing by technology type (laser beam melting, photopolymerization, electron beam melting, droplet deposition/extrusion-based technologies, and three-dimensional printing). (3DP)/adhesive bonding/binding jetting), application and area.
NEW YORK, NOV 09, 2021 (GLOBE NEWSWIRE) – Reportlinker.com announces the release of “Technology Landscape, Trends, and Opportunities in the Global 3D Printing Medical Device Market” – https://www.reportlinker.com/p06177953/? utm_source = GNW
The technologies used to 3D print medical devices have undergone significant changes in recent years, from prototyping to mass production of 3D printed medical devices. The growing wave of new technologies, such as photopolymerization, is creating great potential for various medical device applications and increasing the demand for 3D printed medical devices.
In the medical device market for 3D printing, various technologies are used, such as laser grain melting, photo polymerization, electron beam melting, droplet deposition, and 3D printing techniques in surgical guides, surgical instruments, prosthetics and implants, and tissue engineering applications products. The increasing technological advancements in 3D printing and the increasing investment being made by governments around the world in the healthcare sector are creating new opportunities for various 3D printing technologies for medical devices.
This report analyzes technology maturity, degree of turmoil, competitive intensity, market potential, and other parameters of different technologies in 3D Printing Medical Devices Market. Some ideas are illustrated below with a personal sample. For more details on the numbers, companies researched, and other goals/benefits in this research report, please download the report’s brochure.
The study includes technical readiness, competitive intensity, regulatory compliance, potential for disruption, trends, expectations and strategic implications of global 3D printing medical device technology by application, technology, and region as follows:
Technical readiness by technology type
Competitive intensity and regulatory compliance
Possibility to disable by technology type
Trends and forecasts by technology type [$M shipment analysis from 2015 to 2026]:
Laser beam melting
• Photopolymerization
Electron beam melting
• drop precipitation
• 3D printing
Trends and forecasts by application [$M shipment analysis from 2015 to 2026]]:
• Surgical guides
Laser beam melting
• Photopolymerization
Electron beam melting
• drop precipitation
• 3D printing
• Surgical instruments
Laser beam melting
• Photopolymerization
Electron beam melting
• drop precipitation
• 3D printing
• Prosthetics and Implants
Laser beam melting
• Photopolymerization
Electron beam melting
• drop precipitation
• 3D printing
• Tissue engineering products
Laser beam melting
• Photopolymerization
Electron beam melting
• drop precipitation
• 3D printing
Trend and forecast by region [$M shipment analysis for 2015 – 2026]:
• North Amarica
• United States of America
• Canada
• Mexico
• Europe
• Germany
• France
• United kingdom
• Italy
• Spain
• Asia Pacific
• Japan
• China
• India
• rest of the world
• Brazil
The latest developments and innovations in 3D printing technologies for medical devices
Companies / Ecosystems
Strategic opportunities by technology type
Some of the medical device 3D printing companies mentioned in this report include Stratasys, 3T RPD, Renishaw, Materialize, and SLM Solutions Group.
Lucintel’s study finds that the total size of the medical 3D printing device market is expected to reach $4.5 billion in 2026 and is expected to grow by 18.5% over the next five years. Photo polymerization technology is the largest segment in the 3D printing medical device market and is growing at an above average rate. The wide application of this technology throughout the medical industry for the manufacture of surgical guides (orthotics and teeth), prosthetics, implants, porous scaffolds and dental restorations is leading to an increased demand for 3D printing technology for medical devices.
This report answers the following nine main questions:
Q1: What are some of the most promising and high growth technological opportunities in the 3D Printing Medical Devices market?
Q2: Which technology will grow the fastest and why?
Q3: What are the main factors affecting the dynamics of different technologies? What are the drivers and challenges of these technologies in the 3D printing medical device market?
Q4: What are the levels of technology readiness, competition intensity, and regulatory compliance in this technology area?
Q5: What are the business risks and threats of these technologies in the 3D Printing Medical Devices market?
Q6: What are the latest developments in 3D printing technologies for medical devices? What companies are driving these developments?
Q7: What are the technologies that could disrupt this market?
Q8: Who are the key players in the 3D printing medical devices market? What strategic initiatives are being implemented by the key players for business growth?
Q9: What are the strategic growth opportunities in the 3D printing technology space for medical devices?
Read the full report: https://www.reportlinker.com/p06177953/?
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