German 3D printer manufacturer and addictive manufacturing specialists Aconity3D have unveiled a considerably upgraded 3D printer in the form of the 'AconityTWO,' a high-tech machine that is designed to combine the reliable performance of laser powder bed fusion printing with the added convenience of remote control capability.
Designed to function as the successor to the 'AconityONE' 3D printer, the AconityTWO is equipped with proprietary AconitySTUDIO software, which allows web-based remote access to the machine, allowing for flexibility in use. Elsewhere, this upgraded 3D printer also comes with the 'AconityPLATFORM' configuration suite, allowing for increased customization.
Fitted with a large installation area, the 'AconityTWO' 3D printer is more than capable of handling both conventional and advanced materials alike, making it ideal for a broad array of applications ranging from medical technology to automotive projects.
Remotely Controlled 3D Printers
This Upgraded 3D Printer Offers Improved Rigidity and Control
Trend Themes
1. Remote 3D Printing - The use of remote-controlled 3D printers offers opportunities for streamlined and flexible production processes.
2. Proprietary Control Software - The implementation of proprietary control software allows for customized and precise control of 3D printing processes.
3. Large Installation Area - 3D printers with larger installation areas allow for greater flexibility in terms of material usage and production output.
Industry Implications
1. Additive Manufacturing - Companies in the additive manufacturing industry can benefit from incorporating remote control capability and proprietary control software into their 3D printing machines.
2. Medical Technology - The medical technology industry can utilize the precision and flexibility of remote-controlled 3D printers to create customized and complex medical devices.
3. Automotive - The automotive industry can take advantage of the large installation area and advanced material capabilities of 3D printers like the AconityTWO to create complex and optimized vehicle components.