WaxJet – 510 adopts MultiJet Printing (MJP) technology for ultra-smooth surfaces and high-precision casting wax
patterns. Its generous build volume and fine layer resolution let you tile and overlap multiple models in one
run—ideal for small-batch jewelry production. Layer thickness is 0.015 mm, delivering exceptionally detailed results
on every print. With a WaxJet 510, you can achieve:
- Customized & rapid small-batch production
- Full design confidentiality
- Intricate, high-complexity geometries
PERFORMANCE HIGHLIGHTS
PRINTING CAPACITY HIGHER
Build volume of
289 × 208 × 100 mm accommodates multiple pieces per job, boosting throughput and reducing setup time
PRINTING PRECISION STRONGER
XHD mode at
2900 × 2900 × 1700 DPI produces razor-sharp detail and virtually seamless surfaces
DIMENSIONAL ACCURACY MORE RELIABLE
Maintains tolerance of
±0.04 mm per 20 mm, so your casts fit perfectly every time
ULTRA-HIGH-PERFORMANCE WAX 3D PRINTER
The WJ 510 is engineered for jewelry studios and service bureaus requiring dependable wax mold output:
- Stable & Durable
Self-developed wax circulation control with 24/7 validation testing ensures long-life operation and
consistent printhead performance.
- High Material Utilization
Advanced material handling delivers a wax utilization rate of up to 60 %, minimizing waste and lowering
per-piece cost.
- Intelligent Workflow
Integrated WaxJetPrint slicing software simplifies file preparation and supports unattended, round-the-clock
operation.
- Exceptionally Easy to Electroplate
Red wax molds bond seamlessly with silver plating, accelerating post-processing and preserving fine detail.
What Is MultiJet Printing?
MultiJet Printing (MJP) is an inkjet printing process that uses piezo printhead technology to deposit either photocurable plastic resin or casting wax materials, layer-by-layer. MJP is used to build parts, patterns, and molds with fine feature detail to address a wide range of applications. These high-resolution printers are economical to own and operate, and use a meltable or dissolvable support material to simplify post-processing. This also makes support removal virtually a hands-free and allows even the most delicate features and complex internal cavities to be thoroughly cleaned without damage.
