革新的でコラボラティブ、かつ連携した新規プログラムの管理
Heavy Equipment
Construction, mining, and agricultural heavy equipment manufacturers striving for superior performance
Explore Industry中堅・中小企業
Remove barriers and grow while maintaining your bottom line. We’re democratizing the most robust digital twins for your small and medium businesses.
Explore IndustrySiemens Digital Industries Software Vat Photopolymerization
Vat photopolymerization is a category of additive manufacturing (AM) processes that create 3D objects by selectively curing liquid resin through targeted light-activated polymerization. Stereolithography, the first AM process to be patented and commercialized, is a vat photopolymerization technique. Since the advent of stereolithography in the 1980s, vat photopolymerization has grown to also include continuous liquid interface production (CLIP), solid ground curing (SGC), and direct light processing (DLP).
All types of vat photopolymerization use special resins called photopolymers as the printing material. When exposed to certain wavelengths of light, the liquid photopolymers' molecules rapidly bind together and cure into a solid state through a process called photopolymerization. In most 3D printers that operate under the principles of vat photopolymerization, liquid photopolymer is held in a container or vat with the build platform partially submerged near the surface of the liquid. Using the information supplied by a CAD file, the printer directs a light source to selectively cure the liquid photopolymer into a solid layer. Then the build platform is re-submerged into the remaining resin and the process is repeated for the next layers until the design has fully printed.
Vat photopolymerization is known among manufacturers as a fast and very accurate AM process that can be used to print rather large models and prototypes (with an appropriately sized vat and build platform). However, photopolymers in general do not have robust structural characteristics, so the resulting parts are inherently more prone to degradation and deformation over time. Additionally, printed parts may require special handling or additional tooling depending on the process and polymers used - making vat photopolymerization prohibitively expensive for some applications.