Advanced Aerospace Lightweight Aluminum Components for Slm Production

Customization:	Available
Warranty:	2 Year
File Format:	STEP, IGES, SLC, CLI, STL

Product Overview

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 (melt pool spectral analysis ±10ºC), the system reliably produces titanium alloy orthopedic implants with 50-200μm porous structures, nickel-based superalloy turbine blades featuring 0.3mm internal cooling channels, and conformal cooling injection molds, complying with ISO/ASTM 52900 additive manufacturing standards and NADCAP aerospace certification requirements.

Technical Parameters

Specification Item	Detail
Model NO.	002
Laser Configuration	Dual-Laser (IPG 500W / Domestic)
Build Size	Diameter 252mm
Layer Thickness	20-80μm
Positioning Accuracy	≤100μm
Compatible Materials	Ti6al4V/H13/Inconel 718/Alsi10mg
Forming Technology	SLM (Selective Laser Melting)
Operating System	Windows 10
Connection	WiFi
Oxygen Control	≤500ppm

Key Features

01

Adjustable Laser Spot

Adjust the laser spot from 35-80μm to optimize energy distribution for diverse materials. Smaller spots enable ultra-fine details, while larger spots boost efficiency for bulk components.

02

Dual Scraper System

Equipped with soft/hard dual scrapers to ensure printing accuracy and prevent thin-walled part jamming during the additive process.

03

High Precision & Density

Achieve layer thickness of 0.02-0.05mm, density up to 99%-100%, and surface roughness Ra6-15 μm for industrial-grade parts.

Process & Applications

Application Fields

Medical Implants: Porous titanium structures (50-200μm)
Aerospace: Turbine blades with internal cooling channels
Industrial Molds: Conformal cooling injection molds
Low-Volume Customization: Topology-optimized racing parts

Services and Support

Material parameter package customization (30+ metal powders)
24/7 remote diagnostics and real-time oxygen monitoring
Equipment operation certification training

Packaging & Global Shipping

Every system is meticulously packaged in heavy-duty wooden crates with anti-vibration reinforcement, certified to withstand extreme transit conditions. Our logistics network ensures safe delivery to over 50 countries.

Company Strength

The company is an industry-leading manufacturer of new energy intelligent equipment and SLM dual-laser 3D printing systems, dedicated to providing innovative turnkey solutions for metal additive manufacturing. Since its establishment in 2019, the team has continuously advanced the development of laser processing and automation technologies, delivering high-performance equipment to global industries.

Representative Clients & Certifications

Frequently Asked Questions

Q1. What checks are required before starting the equipment?

- Ensure sufficient inert gas supply (recommended oxygen level <100ppm)
- Verify powder filling meets minimum requirements (typically 30% of build chamber capacity)
- Calibrate scraper leveling (tolerance ±0.01mm)

Q2. How to extend the lifespan of the laser system?

- Regularly clean laser optics (recommended every 200 hours)
- Avoid prolonged full-power operation (recommended power usage ≤80%)
- Maintain stable cooling system (water temperature 20±2ºC)

Q3. How to maintain the powder recycling system?

- Clean the sieve after each print to prevent clogging
- Inspect powder delivery pipes regularly (recommended monthly)
- Replace powder filters every 500 hours or after processing 200kg of powder

Q4. How to handle abnormal alarms during operation?

- Record the alarm code and refer to the operation manual
- Check the status of related sensors (oxygen level, temperature, pressure)
- Contact technical support with equipment log files

Q5. How to ensure consistent print quality?

- Regularly calibrate the laser beam path (recommended every 100 hours)
- Use standard test pieces to verify equipment status (e.g., tensile specimens)
- Monitor melt pool stability via high-speed camera feedback

Q6. What should be considered for long-term equipment shutdown?

- Empty the powder chamber and clean the build chamber
- Disconnect power and drain the cooling system
- Periodically start the equipment for self-check (recommended monthly)