Desktop Metal Studio 3D Printer | Affordable Metal 3D Printing скачать в хорошем качестве

Desktop Metal Studio 3D Printer | Affordable Metal 3D Printing

The learn more about the Desktop Metal Studio system visit https://goo.gl/oiCfek For more information on our metal 3D printing services visit https://goo.gl/Hse3xU There is a new version of the Desktop Metal Studio System, learn more here -    • 2-Step Metal 3D Printing (3D Print+Sinter)...   The Studio 3D Printer from Desktop Metal is designed to be the first affordable, end-to-end solution for 3D printing complex metal parts in house. Here are some of the benefits of the system 10x cheaper The Studio System is up to ten times cheaper than comparable laser-based systems. With purchase and financing options, it’s the only metal 3D printing system that is cost-effective for engineering teams. Minimal Facility Requirements We eliminated lasers and powders to make the Studio System safer for any facility. Unlike traditional DMLS laser-based metal 3D printing systems, there are no requirements for blast-proof rooms and heavily controlled environments. An end-to-end solution The Studio System is a three-part solution that automates metal 3D printing. Tightly integrated through Desktop Metal’s cloud-based software, it delivers a seamless workflow for printing complex metal parts in-house—from digital file to sintered part. HOW IT WORKS 1) Prep Secure, web-based software constructs build plans from STL or CAD files, automatically generating supports and control parameters based on part geometry and material. 2) Print Layer by layer, a green part is shaped by extruding bound metal rods—metal powder held together by wax and polymer binders—in a process called Bound Metal Deposition™. 3) Debind The green part is immersed in proprietary debind fluid, dissolving primary binder and creating an open-pore channel structure throughout the part in preparation for sintering. 4) Sinter As the part is heated to temperatures near melting, remaining binder is removed and metal particles fuse together causing the part to densify up to 96-99.8%. Contact Us: https://goo.gl/xYPbJS Subscribe now - https://bit.ly/2DeL5iH Follow us on Social! Twitter: https://bit.ly/2ZTkKP1 Facebook: https://bit.ly/31UtmHL Instagram: https://bit.ly/3e7XZMp LinkedIn: https://bit.ly/3eaIVO1