The Xtreme 8K DLP Ortho uses dual 4K projector DLP technology to quickly 3D print highly accurate orthodontic models from STL files. Using EnvisionTEC’s proprietary model materials, you will be able to produce high-quality models for use in an orthodontic setting.
Introducing the only DLP-based 3D printers utilizing a true 4M pixel projector with UV optics tuned to 385nm wavelength. The P4K Series delivers the highest accuracy coupled with the highest finished product functionality. Utilizing Artificial Intelligence (AI) in pixel tuning to deliver extremely high quality surface finish, the P4K delivers next generation advanced DLP technology in 3D printing.
Introducing the only DLP-based 3D printers utilizing a true 4M pixel projector with UV optics tuned to 385nm wavelength. The P4K Series delivers the highest accuracy coupled with the highest finished product functionality. Utilizing Artificial Intelligence (AI) in pixel tuning to deliver extremely high quality surface finish, the P4K delivers next generation advanced DLP technology in 3D printing.
Introducing the only DLP-based 3D printers utilizing a true 4M pixel projector with UV optics tuned to 385nm wavelength. The P4K Series delivers the highest accuracy coupled with the highest finished product functionality. Utilizing Artificial Intelligence (AI) in pixel tuning to deliver extremely high quality surface finish, the P4K delivers next generation advanced DLP technology in 3D printing.
The 3D-Bioplotter Starter Series is designed for research groups new to the field of tissue engineering with few requirements in parallel material processing and automation. It consists of the same basic hardware and software as the other two 3D-Bioplotter models, but lacks modular capability and platform temperature control. The 3D-Bioplotter Starter Series comes with 2 fixed high-temperature heads.
The 3D-Bioplotter Developer Series is designed for research groups new to the field of tissue engineering, as well as for specialized use, where limited capability may still meet requirements. It consists of the same basic hardware and software as the Manufacturer Series with reduced functionality regarding camera and park positions, but is still capable of using a UV curing head and an optional heated platform.
The 3D-Bioplotter System is a versatile rapid prototyping tool for processing a great variety of biomaterials for computer-aided tissue engineering (CATE), from 3D CAD models and patient CT data to the physical 3D scaffold with a designed and defined outer form and an open inner structure.