The field of prosthetics has been transformed by the introduction of 3D printing technology, which provides various benefits to prosthetic users. Furthermore, 3D printing ensures high-quality and consistent production of prosthetic hands made through 3D printing that are durable yet lightweight; making them comfortable for users to wear for extended periods. Additionally, customization options are extensive, allowing users to personalize their prosthetic hands to meet their aesthetic and functional needs. One such innovation is Zeus, the strongest bionic hand on the market, which offers a grip force of 34.17lbf/152N and lift capacity of 77lbs/35kgs. It is also extremely robust, with impact-resistant fingers that can withstand heavy use. Even in the unlikely event of a breakage, Zeus can be repaired locally in under 60 minutes, ensuring minimal downtime for the user. For clinicians, Zeus represents a game-changing innovation in the world of prosthetics. With its locally repairable design, customizable 12 grip patterns, and digital platform, Zeus offers a level of versatility and flexibility that was previously unheard of in the industry. The ability to remotely configure the hand ensures that clinicians can provide their patients with the best possible solution without the need for time-consuming in-person adjustments.
Sustainability
Numerous organizations worldwide are striving towards more sustainable manufacturing processes. 3D printing is highly sustainable as it minimizes the waste of materials and carbon emissions compared to traditional manufacturing methods. With 3D printing, materials are printed by the machine leading to a significant reduction in waste. Many 3D printers use recycled materials, enabling them to reuse waste materials from other projects. As millions of prosthetic devices are manufactured each year, switching to 3D printing can significantly impact achieving a more sustainable future.
Quality and Consistency
Sustainability is not the only factor that is considered during the process of manufacturing. The quality and consistency of materials are another essential factor to consider in prosthetics. 3D printing produces high-quality, durable, and lightweight materials that are vital in the manufacturing of prosthetic devices. As a result, prosthetic users can have more dexterity and comfort without compromising strength, structural integrity, or durability. 3D printing technology also allows for consistent production, ensuring that prosthetic devices are of the same high quality.
Affordability
Traditional manufacturing methods can be expensive, driving up the cost of prosthetic devices for users. However, 3D printing allows for more affordable manufacturing and production costs, increasing accessibility to prosthetic devices. Aether Biomedical created the Zeus with affordability in mind, ensuring that users from all backgrounds can access the independence and autonomy that comes with a bionic hand.
Zeus is the strongest bionic hand on the market with grip force of 34.17lbs/152N, and lift capacity up to 77lbs/35kgs, with impact-resistant fingers that can withstand heavy use. The 3D printing technology used in the process of manufacturing the Zeus hand allows a competitive and affordable product with novel features such as local repairability. The hand is made up of seven modules that can be replaced locally by the clinician in under 60 minutes. Overall, the benefits of 3D printing in prosthetics cannot be overstated. By embracing this technology, manufacturers and prosthetists can offer more affordable, sustainable, and customized prosthetic devices to users who need them.
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