Metal 3D Printing System for Aerospace and Automotive Parts Manufacturing

Customization:	Available
After-sales Service:	Engineers Available to Service Machinery Overseas
Warranty:	2 Year

Basic Information

Model NO.

HY

File Format

STEP, IGES, SLC, CLI, STL

Nozzle Number

Dual-Laser

Forming Technology

SLM

Precision

<100μm

Thickness

20-80μm

Printer Material

Plastic, Metal

Welding Precision

±0.1mm

Certification

FDA ISO CE

Origin

China

Product Description

The SLM Dual-Laser Metal 3D Printer is a high-efficiency, intelligent, and customized industrial-grade additive manufacturing system specifically designed for aerospace, medical implants, and precision tooling. By integrating dual-laser dynamic coupling technology (500W primary laser + 200W secondary laser), closed-loop powder management (powder utilization rate ≥95.7%), and intelligent quality monitoring, the system reliably produces titanium alloy orthopedic implants with 50-200μm porous structures and nickel-based superalloy turbine blades featuring 0.3mm internal cooling channels.

Key Features

Adjustable Laser Spot

Adjust the laser spot from 35-80μm to optimize energy distribution for diverse materials.
Smaller spots (35-50μm) enable ultra-fine details for microstructures.
Larger spots (60-80μm) boost efficiency for bulk components.

Dual Scraper System

Equipped with soft/hard dual scrapers to ensure printing accuracy.
Prevents thin-walled part jamming and improves recoating stability.

High Precision & Density

Layer thickness: 0.02-0.05mm.
Density: 99%-100%.
Surface roughness: Ra6-15 μm.

Technical Specifications

Parameter	Specification
Model	SLM Dual-Laser
Laser	IPG 500W / Domestic Laser
Build Size	Diameter 252mm
Spot Size	≈40μm
Scanning System	ScanLab
Layer Thickness	0.02-0.05mm
Part Density	99%-100%
Accuracy	±0.1mm
Surface Roughness	Ra 6-15μm
Total Power	8KW/9KW
Compatible Materials	Stainless Steel, Titanium Alloys, Aluminum Alloys, Nickel-based Alloys

Process Flow & Applications

Industrial Applications

Medical Implants: Porous titanium alloy orthopedic structures for osseointegration.
Aerospace: Superalloy turbine blades with complex internal cooling channels.
Industrial Molds: Conformal cooling injection molds with 40% efficiency improvement.
Automotive: Topology-optimized lightweight suspension brackets.

Packaging & Shipping

Every system is meticulously packaged in heavy-duty wooden crates with anti-vibration reinforcement, certified to withstand extreme transit conditions, ensuring damage-free delivery globally.

Certifications & Global Presence

FAQ

What checks are required before starting the equipment?

Ensure sufficient inert gas supply (oxygen level <100ppm), verify powder filling (min 30% capacity), and calibrate scraper leveling (±0.01mm).

How to extend the lifespan of the laser system?

Regularly clean laser optics every 200 hours, avoid full-power operation (keep ≤80%), and maintain stable cooling water at 20±2ºC.

What materials can be used with this SLM printer?

The system is compatible with Stainless Steel, High-Temperature Alloys, Titanium Alloys, Aluminum Alloys, and other metal powders.

How is print quality consistency ensured?

By regularly calibrating the laser beam path (every 100 hours) and monitoring melt pool stability via high-speed cameras.

What are the main application fields?

It is primarily used in Aerospace for turbine blades, Medical for porous implants, and Automotive for topology-optimized parts.

How to handle abnormal alarms?

Record the alarm code, check related sensors (oxygen, temperature), and refer to the operation manual or contact technical support.

Product Detail

Metal 3D Printing System for Aerospace and Automotive Parts Manufacturing

Product Description

Basic Information

Product Description