Despite the challenges caused by the COVID-19 pandemic and increasing economic uncertainty, new startups are founded every day. To introduce you to 5 additive manufacturing startups founded in 2021, we analyzed 368 startups in the field. All of them develop innovative solutions spanning from rapid prototyping to bioprinting.
The 5 promising additive manufacturing startups you should watch in 2021 were hand-picked based on our data-driven startup scouting approach, taking into account factors such as location, founding year, and relevance of technology, among others. The 368 companies that were analyzed for this report are identified using the StartUs Insights Discovery Platform, covering 1.379.000+ startups & scaleups globally. When you are looking for up-to-date solutions for your innovation units, R&D, or product development department, the StartUs Insights Discovery Platform gives you the most exhaustive collection and ensures you continuously discover new startups, scaleups, and technologies.
Global Startup Heat Map: 5 Additive Manufacturing Startups to Watch in 2021
The Global Startup Heat Map below highlights 5 additive manufacturing startups, developing technology-driven solutions for the manufacturing industry. Moreover, you can explore global hotspots for additive manufacturing startups and even download this graphic to include in your next presentation.
Wayland Additive offers Metal Additive Manufacturing Solutions
Metal additive manufacturing is a quick and cost-efficient way to create intricate product designs. Unlike traditional processes such as forging and casting, the electron beam method reduces the time and costs for prototyping and spare part production. However, the process currently compromises on the finish of a surface and requires post-processing. Innovations in the field of metal additive manufacturing harness efficient ways to refine the process, improve efficiency, and remain cost-effective.
The British startup Wayland Additive develops enhanced electron beam (eBeam) 3D printing solutions for a broad range of industrial sectors. The startup’s proprietary NeuBeam technology offers stable, flexible, and improved metallurgy techniques. Additionally, it eliminates the major challenges with eBeam and laser powder bed fusion techniques – including long layer times and high residual stress. Further, the startup’s proprietary technology offers favorable energy transfer and enables higher productivity as it is superior to conventional technologies.
ORYX Additive provides Product Finishing Solutions
Additive manufacturing demands extended post-processing methods to get the final product ready. This delicate job usually requires human workers to finish and deliver the end product. This extensive use of labor increases costs for 3D printing businesses while also increasing the possibility of errors. To this end, innovation in additive manufacturing revolves around automated finishing solutions to help engineers design and create products with greater precision.
ORYX Additive is a US-based startup that provides tailored finishing solutions for additive manufacturers. The startup creates apparatus devices with Phoenix Analysis & Design Technologies (PADT) that provide support removal. In addition, ORYX Additive develops larger and intricate equipment to help manufacturers scale up their additive manufacturing support removal and other finishing processes. The startup’s solutions offer low-cost finishing techniques to streamline the production process, minimize waste and increase reuse of printing materials.
Exos Armor develops 3D-Printed Orthopedic Corset
Medical devices, including prosthetics, support differently-abled patients in their daily life. Rethinking conventional support systems, with computer-aided design (CAD) and 3D printing, opens up effective designs that aid patients more efficiently and also reduce the final cost in production. Additionally, innovations in the materials industry offer a better choice of material characteristics that enhance the patient’s daily activities and provide better comfort.
The Italy-based startup Exos Armor uses additive manufacturing to develop improved versions of traditional medical devices. The startup employs additive manufacturing to develop lightweight and breathable back braces for people of all ages. Exos Armor utilizes 3D scanning and printing technologies to provide tailored and customized solutions. Also, the startup follows an eco-friendly approach by eliminating the use of plaster casts and instead using recyclable materials for printing.
Custiv produces Rapid Prototyping Techniques
Prototyping is a critical element in all manufacturing processes. Conventional prototyping is expensive and consumes a massive amount of time to return the final product. 3D-printing, on the other hand, enables rapid prototyping to accelerate and scale product development while also reducing costs. To further advance the process, startups develop additive manufacturing technology that offers absolute control over the specifications of the product design.
Custiv is an Indian startup that combines additive manufacturing and computerized numerical control (CNC) machining & injection molding. The startup’s fused deposition modeling (FDM) offers one-of- or low-volume production runs for rapid prototyping that reduces the design cycle period. The technology enables designers to 3D-print plastic models and supports faster iterations, which then facilitates design finalization. The startup’s FDM supports nylon, polylactic acid, and polyethylene terephthalate, among others. For example, the startup provides the maximum dimensional tolerance and their direct metal laser sintering (DMLS) produces production-grade metal end-use parts.
TissueLabs develops 3D-Bioprinters
Additive manufacturing opens up a unique way to address the demand for human organs and tissue through bioprinting. With innovations in the biotechnology and materials industries, startups devise more reliable bio-inks and bioprinters. The technology 3D prints human organs and tissue for personalized medical care, drug testing, and organ replacements. Furthermore, bioprinting reduces the manufacturing cost and dilutes organ demand in the market.
Based in Brazil, TissueLabs is a startup that develops 3D printers for the scientific community working with biofabrication. The startup’s fully-fixed and calibration-free approach to their printer TissueStart offers high precision and reproducibility. Further, the dual-piston extruders enable the bioprinter to use multiple inks to develop complex 3D tissues. The printer also features premium plexiglass in its construction, which offers better resistance, durability, and easy cleaning.
How will Additive Manufacturing impact your company?
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