High-precision micro-nano 3D printing system 2 microns-BMF Precision Tech Inc.

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microArch^® S230A

Photosensitive resin, ceramic slurry

Printing material

2μm

Optical resolution

50mm(L)×50mm(W)×50mm(H)

Maximum build size

Features

Ultra-high precision

Ultra-high precision

XY printing resolution: 2 μm
Thick at the bottom

Thick at the bottom

Small layer thickness: 5 μm
Cross-scale

Cross-scale

Macro-micro integrated machining
Stability

Stability

Liquid levelling automatically
Industrial-grade

Industrial-grade

Supports printing with high-viscosity resins
Automation

Automation

Automatic leveling system, automated leveling parameters
High efficiency

High efficiency

Equipped with a heating resin tank to comprehensively improve operational efficiency

Ultra-high precision

XY printing resolution: 2 μm

Thick at the bottom

Small layer thickness: 5 μm

Cross-scale

Macro-micro integrated machining

Stability

Liquid levelling automatically

Industrial-grade

Supports printing with high-viscosity resins

Automation

Automatic leveling system, automated leveling parameters

High efficiency

Equipped with a heating resin tank to comprehensively improve operational efficiency

Specifications

Light source

UV-LED(405nm)
Printing material

Photosensitive resin, ceramic slurry
Optical resolution

2μm
Layer thickness

5~20μm
Build size

Mode 1: Single exposure mode：3.84mm(L)×2.16mm(W)×50mm(H) Mode 2: Stitching exposure mode：50mm(L)×50mm(W)×50mm(H) Mode 3: Micro array mode：50mm(L)×50mm(W)×50mm(H)
File format

STL
Printer dimensions

1720mm(L)×750mm(W)×1820mm(H)
Power demand

220~240V AC,50/60HZ,2KW
Maximum build size

50mm(L)×50mm(W)×50mm(H)
Printer weight

660kg

Applications

01 Capillary organ-on-a-chip

Application Areas: Biomedical
Dimensions: 18 x 10 x 5 mm³, 5-layer flow channels, 14 rows of parallel channels per layer, each channel featuring trapezoidal interface pores spaced 300 μm apart with pore sizes of 7–10 μm
Structual features: The combination of high precison micro-nao 3D printing and microfluidic technology, suitable for disease modeling, drug discovery and physiological modeling.
02 3D Bow-Knot Structure Array

Applications: Terahertz detection and sensing
Dimensions: 5 mm × 5 mm × 0.5 mm
Structural Features: Terahertz detector with a semi-metallic thin film coating and a large effective detection area
03 Bio-inks 3D structure

Application: New Materials
Dimensions: 18x10x5 mm³
Technical Support: Printable bio-ink scaffold for bone defect treatment

Capillary organ-on-a-chip

Application Areas: Biomedical
Dimensions: 18 x 10 x 5 mm³, 5-layer flow channels, 14 rows of parallel channels per layer, each channel featuring trapezoidal interface pores spaced 300 μm apart with pore sizes of 7–10 μm
Structual features: The combination of high precison micro-nao 3D printing and microfluidic technology, suitable for disease modeling, drug discovery and physiological modeling.

3D Bow-Knot Structure Array

Applications: Terahertz detection and sensing
Dimensions: 5 mm × 5 mm × 0.5 mm
Structural Features: Terahertz detector with a semi-metallic thin film coating and a large effective detection area

Bio-inks 3D structure

Application: New Materials
Dimensions: 18x10x5 mm³
Technical Support: Printable bio-ink scaffold for bone defect treatment

Download manual

Industrial 3D Printing System

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