Digital Light Processing Printers

Digital Light Processing (DLP) technology represents the future of additive manufacturing speed and quality. Designed for high-volume production and rapid prototyping, Figure 4 systems use a projected digital image to cure an entire layer of photopolymer resin simultaneously. This process offers significantly higher throughput and accuracy than many legacy 3D printing methods, allowing you to produce end-use parts, tooling, and prototypes in hours, not days. If speed, industrial-grade materials, and scalability are critical to your workflow, the Figure 4 DLP system is your essential manufacturing solution.
Figure 4 3D Printer

Figure 4 3D Printer

$25,000.00
$25,000.00

The Figure 4 Ecosystem: Scalable Solutions for Production Applications

The 3D Systems DLP portfolio, centered on the Figure 4 platform, is engineered to be a comprehensive and scalable solution for modern manufacturing. DLP excels by delivering exceptional surface quality and part accuracy without sacrificing speed. The systems support a wide range of materials—from tough, rigid plastics to high-temperature and elastomeric materials—enabling applications in automotive, consumer goods, healthcare, and industrial tooling. The Figure 4 platform offers a range of configurations, from standalone units to modular, high-volume production cells, ensuring it grows with your manufacturing demands.
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Figure 4 Standalone 3D Printer

The Figure 4 Standalone 3D Printer provides an accessible entry point to industrial-grade, high-speed DLP printing. This compact, non-modular system is ideal for engineering labs, design studios, and small to mid-sized manufacturing environments that require exceptional part accuracy and fast turnaround. Leveraging the Figure 4's rapid print engine and the full range of engineering-grade materials, the Standalone system is perfect for quick functional prototypes, manufacturing aids, and small-batch production of end-use polymer parts. It delivers a fast, simple, and automated process, minimizing labor and maximizing output.