High Precision Industrial 3D Printers

High Precision Industrial 3D Printers

◆Technology: Liquid crystal light curing
◆Product size: 350*315*H455mm
◆Printing volume: 228*128*H245mm
◆HD resolution: 7680*4320
◆UI interface operation: touch screen
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Description

Technical Parameters

High Precision Industrial 3D Printers are professional-grade equipment integrating DIW (Direct Ink Writing) and FDM (Fused Deposition Modeling) technologies. They address industrial pain points like limited high-performance material processing, low complex structure precision, small forming size, and lack of R&D customization. Serving biomedical, new material development, automotive, and aerospace industries, they enable high-precision components, personalized medical devices, and large industrial prototype production.

 


 

Ultra-High Precision: MakerPi has 0.1mm nozzles, ±10μm mechanical positioning accuracy; MINGDA MD-600D uses linear rails and closed-loop motors to avoid step-out, maintaining precision at high speeds.

Flexible Material Compatibility: Handles common (PLA, PETG) and high-performance materials . MakerPi offers optional temperature modules/UV curing for specific material needs.

Large Volume & Multi-Channel: MINGDA has 600×600×600mm build volume for full-size industrial parts; MakerPi's flagship has ≥300×200×100mm volume. Both support multi-printheads for multi-material/efficiency printing.

Digital & Automated Control: Real-time pressure/remote monitoring, auto-calibration, auto-leveling, power-on self-check, and resume printing after outage reduce manual work.

Stable & Durable: MINGDA uses CNC sheet metal; MakerPi has redundant design, ensuring long-term industrial/R&D operation.

Customizable Solutions: MakerPi offers R&D customization ; MINGDA is factory-assembled/calibrated for quick production deployment.

 

 

High Precision Industrial 3D Printers


 Product Specifications

Product Size:
350*315*H455mm
Power:
Print 120w, Heating 200w
Package Size:
445*420*550mm
UI Operation:
Touch screen
Package Weight:
19kg
File Format:
STL
Printing Volume:
228*128*H245mm
HD Resolution:
7680*4320
Rated capacity 800/1000/1150/1275kg
Light spot size:
29.6μm
Exposure time:
2-3s/layer(0.05mm)
Printing Tolerance:
±0.05
Technology:
LCD Photocuring
Layer Height:
0.03,0.05,0.1mm
Wavelength Range:
402.5-405mm
Resin Vat Capacity:
0.7kg
File Transfer:
USB
Constant Temperature:
25℃,30℃,35℃ automatic constant temperature system
Printer System:
Linux
Voltage:
110, 220V (produced on demand)
High Precision Industrial 3D Printers

Working principle

 

 

DIW Precise Deposition: Load materials (slurries, hydrogels, etc.) into printheads, use controlled air pressure to push through fine nozzles, and drive printhead/platform movement per 3D model paths for layer-by-layer deposition. Activate optional modules (UV curing, temperature control) to solidify layers accurately.


FDM Melting & Stacking: Feed filaments into extruders, melt via high-temperature hotends, and extrude molten material onto the platform. A precision drive system guides the extruder to lay material layer by layer; the platform ensures adhesion to prevent warping until cooling and forming.

Multi-Channel Collaborative Forming: Multi-printhead/dual extruder designs work together-one processes main materials, the other handles supports or supplementary materials. The system coordinates movement and extrusion timing for seamless integration, simplifying post-processing.

Real-Time Monitoring & Adjustment: Monitor extrusion pressure, temperature, and filament status in real time. When abnormalities occur, save data, pause printing, and retract materials; resume after troubleshooting. Pre-print self-checks and auto-calibration guarantee accuracy.

 

High Precision Industrial 3D Printers application

Xinshan is a professional 3D printer manufacturer!

Biomedical

xinshan prints personalized implants, cell culture platforms, and 3D drugs with precise dose control.

Industrial Manufacturing

MINGDA produces large industrial parts (auto components, injection molds) and functional prototypes.

New Material R&D

Both support diverse materials (ceramics, composites) for testing and validation.

High-Precision Components

xinshan's micro-precision for medical aesthetics; MINGDA's stability for aerospace parts.


 

Typical Technical Traits
 

Aspect Trait
Printing Technology FDM; Resin (for high-precision mini models)
Filament Compatibility Supports common filaments like PLA, TPU, PETG
Build Plate Removable, with good adhesion
Connectivity Multiple options like USB, MicroSD, WiFi
Software Works with mainstream 3D printing software
Power Supply Compatible with regular household power



Comparison of SLA with other 3D printing technologies


SLA vs DLP
Building size: SLA can print a larger area, while DLP is limited by the size of the optical machine pixel and the molding size is limited3.
Structural complexity: Since SLA has no pull-out problem, the support structure can be made relatively small or sparse, which is suitable for printing parts with complex structures.

SLA vs FDM
Material cost: The liquid photosensitive resin used in SLA is usually more expensive than the plastic filament in FDM technology.
Printing speed: SLA usually has a slower printing speed due to its layer-by-layer curing method, while FDM technology can achieve faster printing speeds.

 

 

FAQ

 

 

1.What affects the printer's price? How to balance cost and performance?
Price depends on technology (laser sintering > FDM), build volume (larger = pricier), material compatibility (engineering-grade support adds cost), and brand. SMEs choose entry-level modelsfor basic precision; large enterprises pick high-end ones (over 1M RMB) for ultra-high precision.
 

2.For large parts (e.g., 500×500×500mm), what to focus on beyond build volume?
Prioritize structural stability (full-steel frames), compatibility with engineering materials (PET-CF, nylon), and continuous printing (auto-feeding, power-off resume) to avoid waste.

 

3.Do they support third-party materials? Will it affect precision/after-sales?
Most open-system models support it; closed-system may restrict. Match material parameters (melting point) and test-no major precision impact. Warranties usually stay valid if issues aren't material-caused (confirm with sales).
 

4.What after-sales support is offered? How to ensure timely maintenance?
Standard support: 1-2 years core component warranty, localized on-site service (72h response), online technical help. Ensure continuity by checking local service networks and spare parts stock.

 

5.How to verify if it meets strict tolerances (e.g., ±50μm) for medical/aerospace use?
Ask for factory precision test reports; do on-site printing of standard parts (e.g., calibration cubes) for measurement; check if it meets industry certifications (ISO 13485 for medical).

 

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