3D DLP CERAMIC PRINTERS

This high-performance ceramic 3D printing solution is designed for research, development, and high-precision prototyping, while also supporting cultural and creative products, precision ceramic parts, and small-batch customized production.

High-Precision for R&D

Designed for ceramic research, material development, and precision prototyping, capable of producing complex micro-scale structures.

AI-Assisted Process Control

Equipped with AI-supported parameter control software for automated adjustment and more stable printing quality.

Fast Small-Batch Development

Suitable for creative products, precision ceramic parts, and low-volume customized production with faster iteration.

SL-100DDL-100D
Machine Dimensions700 × 540 × 960 mm650 × 450 × 900 mm
Build Volume100 × 100 × 100 mm95 × 54 × 100 mm
Minimum Layer Thickness10–50 μm / adjustable10–150 μm / adjustable
Number of Recoater BladeAvailable in 1 or 2 bladesAvailable in 1 or 2 blades
Optical ResolutionLaser spot size: 40 μmDLP pixel size: 50 μm
Printing Accuracy100 mm ± 0.05 mm, 1920 × 1080100 mm ± 0.05 mm, 1920 × 1080
Light SourceUV Laser, 355 nmUV LED DLP, 405 nm
Starting Print Material Volume300 ml300 ml
Printing Speed≥300 layers/hour≤350 layers/hour
WeightApprox. 110 kgApprox. 50 kg
Power Consumption1.5 kW (Max. power at startup)300 W
Supported MaterialsAlumina, Zirconia, Silica, Carbides, and other UV-curable ceramic materials;
light-sensitive resin materials

We also provide high-precision R&D DLP 3D printing systems for laboratories, universities, dental research teams, medical research groups, and advanced material developers. These systems are designed for small-volume testing, material validation, and precision sample development before moving toward larger-scale production.

With stable performance and flexible material compatibility, the series supports ceramic slurry, photosensitive resin, hydrogel, bio-ink, and other UV-curable research materials. It is suitable for micro/nano-scale prototyping, precision ceramic parts, biomaterial testing, and early-stage R&D applications.

Micro R&D Printer Pro 5

A compact desktop DLP research printer for micro-scale testing and fine-detail prototypes. With 5 μm XY optical precision and 5 μm minimum layer thickness, it is ideal for small samples, ceramic slurry testing, hydrogel printing, bio-ink research, and micro/nano structure development.

Precision DLP Printer 7.6

A larger high-precision DLP platform for advanced material research and precision component development. With 7.6 μm XY optical precision, 5 μm minimum layer thickness, and a larger build volume, it is suitable for ceramic parts, microfluidic samples, advanced resin printing, and higher-capacity R&D work.

Precision DLP Printer 7.6 Bio

An upgraded bio-material research system designed for hydrogel, bio-ink, biomaterials, and micro-volume printing. It supports variable light intensity, biomaterial tanks, humidity control, optional constant temperature control, and micro-volume printing as low as 1 ml, helping reduce waste when testing valuable research materials.

SpecificationM-One Pro 5MAX-7.6MAX-7.6 Bio Version
Machine Dimensions310 × 310 × 450 mm630 × 630 × 1700 mm630 × 630 × 1700 mm
Build VolumeSingle Projection: 12.8 × 7.2 × 100 mm
Array Projection: 12.8 × 28.8 × 100 mm
29.2 × 16.4 × 100 mmSingle Projection: 29.2 × 16.4 × 100 mm
Array Projection: 29.2 × 49 × 100 mm
Minimum Layer Thickness5 μm minimum5 μm minimum5 μm minimum
Recoater BladeOptionalOptionalNone
Printing AccuracyXY Axis Accuracy: 5μm;
Z Axis Layer Thickness: 5–150μm
XY Axis Accuracy: 7.6μm;
Z Axis Layer Thickness: 5–150μm
XY Axis Accuracy: 7.6μm;
Z Axis Layer Thickness: 5–150μm
Light SourceCustomized UV LED light engine, 405 nmCustomized UV LED light engine, 405 nmVariable-intensity customized UV LED light engine, 405 nm
Starting Print Material VolumeMicro: 1mL;
Standard: 10–20mL
Micro: 1mL;
Standard: 10–20mL
Micro: 1mL;
Standard: 10–20mL
Printing SpeedLow layer thickness: 1cm/hour
High layer thickness: 5cm/hour
Low layer thickness: 1cm/hour
High layer thickness: 5cm/hour
Low layer thickness: 1cm/hour
High layer thickness: 5cm/hour
Weight28 kg390 kg390 kg
Power ConsumptionLight engine power: 50 WLight engine power: 120 WLight engine power: 120 W
Supported MaterialsPhotosensitive resin, bio-ink, hydrogel, ceramic slurryBroad material compatibility; not specifiedBiomaterials, photosensitive resin, hydrogel, ceramic slurry, and bio-related materials
MAX 7.6 Bio Version• Build Platform: Multi-size quick-release platform
• Print Vat: Dedicated bio-material vat
• Custom Heating: 35–40°C (constant temperature); Humidification.
  Heatable to 35–40°C with precise temperature control to meet different material requirements,
  ensuring print quality and stability.
  Humidification function suitable for printing special hydrogels and bio-materials,
  providing sufficient moisture to optimize the forming environment and improve print accuracy and material performance.