Unleashing Innovation at Scale: The Transformative Power of Massivit 3D Printing
The field of 3D printing continues to evolve, pushing the boundaries of materials, resolutions and applications. However, for industries that require large parts, complex prototypes, or large-scale visual displays, traditional additive manufacturing often runs into bottlenecks—painfully long print times and significant size constraints. Enter Massivit 3D printinga groundbreaking technology designed specifically to break these limitations, redefining what’s possible in unparalleled ways speed and scale.
Beyond incremental gains: a paradigm shift
Unlike the common layer-by-layer deposition in FDM or sintering in SLS/SLM, Massivit printers use a breakthrough technology called Gel dispensing printing (GDP). This innovation process is the cornerstone of its speed and scale advantages:
- Lightning-fast printing speeds: GDP relies on depositing a proprietary UV-curable photopolymer gel. This gel is dispensed via a specialized print head that quickly creates thick layer structures – often in tens of centimeters per hour vertical. The resulting speedup is revolutionary compared to the hours or days it would take to manufacture parts of the same size using traditional methods. This allows for rapid iteration of large prototypes or significantly compressed timelines for production-ready large parts.
- Massive build volume: Massivit printers are synonymous with scales. They offer some of the largest build sizes in the industrial 3D printing market (some sizes up to several meters), making it easy to produce life-size components, full-scale architectural models, oversized signage, automotive tools and large functional prototypes that were previously impractical or prohibitively expensive to manufacture as single pieces.
- Structural integrity of large parts: Printing extremely large objects quickly often raises concerns about structural integrity. Massivit solves this problem ingeniously. The gel acts as both a print-ready material and a temporary support structure. Surrounding the part with gel during printing creates inherent stability during manufacturing, minimizing distortion and ensuring dimensional accuracy
