FAST AND AFFORDABLE JEWELRY WAX PATTERNS PRINTER
The ProJet MJP 2500W is a 100% wax jewelry patterns 3D printer that adjusts to your workflow, delivering from several short-run batches a day to the next day for larger builds at high productivity.
Combine up to 10x faster print speeds and 3.7x larger build volume than similar class printers for high productivity of precision, fine jewelry casting patterns with an affordable 3D printer.
The ProJet® MJP 2500W 3D prints in VisiJet® 100% wax materials to deliver durable, high-quality jewelry patterns for reliable performance and results throughout existing lost-wax casting processes and equipment.
VisiJet wax materials melt like standard casting waxes, with zero ash content for defect-free castings. It is durable for handling and casting fine features, and high contrast colors allow for easy fine details visualization.
Improve manufacturing agility by adopting a digital foundry workflow for jewelry manufacturing.
Featuring fast wax patterns production, at up to 10x faster print speed than similar class solutions, and even faster workflow with single-lane builds, the ProJet MJP 2500W improves the casting room efficiency. With a 3.7x larger build volume capability than similar class printers and 24/7 operation, the high productivity of this affordable printer means fast amortization and high return on investment.
Streamline your file-to-pattern workflow with the advanced 3D Sprint® software capabilities, fast and versatile MJP print speeds and batch support removal to deliver high quality, ready-to-cast jewelry patterns.
From fast short runs to high throughput, for custom jewelry or series production
Consistently print true-to-CAD and fine feature definition jewelry patterns with exact, razor-sharp edges and extreme crisp details. Dissolvable and meltable supports result in excellent surface quality for reduced finishing labor and polishing of costly precious metals. These highly accurate, fine wax patterns are directly printed, without the time, costs and geometric limitations of tooling.