A Direct Precious Metal 3D printing platform, designed specifically for the production of jewellery and precious metals, was jointly optimised by Cooksongold and EOS. The system expands upon the technology created by EOS to provide jewellery makers with the power and freedom to create complex jewellery in a matter of hours.
CAMBRIDGE, Mass.–(BUSINESS WIRE)–Markforged, the only 3D printing platform that prints the entire range of strong parts from carbon fiber to metal with a complete cloud managed 3D solution, today announced the addition of two new printers to the company’s Industrial Series. Markforged’s new X3 and X5 printers introduce price points that enable customers to print stronger, larger, and lighter parts.
3D Platform showcased their extreme Benchy print that became quite popular on Reddit.
scale your print size from large to small with 3D Platforms.
John Good talks us through these 3 main categories at Rapid 2017
3D Platform Launches PRO Electronics Rebuild Program Give your x1000 or Workbench Machine the PRO Boost Rockford, Illinois, USA – April 25, 2017 – 3D Platform (3DP), a global leader in manufacturing large-format, industrial-strength 3D machines
3D Platform’s new line of high flow extruders and 6 mm diameter filament reduce print times and increase throughput from 2 kg/day to 2 kg/day. Using larger filament also allows customers to print stronger parts.
Achieve a mirror finish for your 3D prints in a few easy steps.
This is an affordable Field-Stretchable Assembly (FSA) and value pack of high-quality FSA films for use with some models of its 3SP printers. That includes popular models such as the 3Dent and Ultra that previously shipped with a Pre-Stretched Assembly or PSA.
Creativity in 3D printing has expanded well beyond additive art and sculptures with 3D Platform enabling artists to unleash their creativity and bring big ideas to life.
3D Platform launched a new line of High Flow Extruders that change the rules of additive manufacturing
The resulting material can withstand ultrahigh temperatures in excess of 1700°C and exhibits strength ten times higher than similar materials.
Previously, The extremely high melting point of many ceramics adds challenges to additive manufacturing as compared with metals and polymers. But now, the invented preceramic monomers are cured with ultraviolet light in a stereolithography 3D printer forming 3D polymer structures that can have complex shape and cellular architecture. These polymer structures can be pyrolyzed to a ceramic with uniform shrinkage and virtually no porosity by heating.