Pellets 3D printers bring new manufacturing possibilities to mold, sculpture, education and other industries | Piocreat
There are currently two types of 3D printers commonly used in the market: one is a 3D printer that uses FDM technology, and the other is a 3D printer that uses light curing technology.
LCD 3D printers mainly use SLA, DLP and LCD three technologies, but light-curing technology, no matter which one, needs to use photosensitive resin as consumables, and the material cost is the highest. The FDM uses linear plastic consumables, including PLA, PETG, ABS, etc., but similarly, for companies that want to save costs on materials, the price of linear consumables used by FDM is still relatively high.
At present, the industrial-grade particle fusion 3D printer developed by Piocreat 3D saves the cost of materials to the greatest extent. It is an ideal equipment for industries such as large and small sculptures, architecture, doors and windows, molds, and industrial parts that need to use 3D printers.
Piocreat 3D G5 is a new type of industrial-grade 3D printer that uses the tow bar to rotate and heat, and feed pellets to the nozzle, and then use the nozzle. The biggest advantage of G5 is that it can directly use standard plastic pellets as printing consumables. Different from the wire used in traditional FDM, the material is the material that requires pellet consumables to purchase the wire for drawing into a roll, and then to the material used by the FDM3D printer, which requires intermediate consumables for consumables. Therefore, the wire is a new and expensive particle material.
And the wire is basically made of plastic, and the particles used in G5 are not only standard plastic materials, but also ABS, PP, nylon, or composite materials formed by adding fiber or copper powder. Only in terms of printing consumables, the pellet 3D printer is superior to the linear FDM 3D printer.
The development and launch of the pellet 3D printer marks the 3D printing industry has entered a new level, bringing new manufacturing possibilities to industries such as mold design and manufacturing, sculpture injection molding, teaching and scientific research, etc.。