| Customization: | Available |
|---|---|
| After-sales Service: | Engineers Respond in 1 Minute |
| Warranty: | 2-Year for Laser Source, 1-Year for Machine |
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Laser Welding Machine Technical Parameters: Unveil the advanced features and specifications of our laser welding machine, meticulously crafted for precision and efficiency, setting the benchmark in the industry.
| Laser wevelerngth | 1080(±10)nm | ||
| Ouput fiber length | 10M | ||
| Max laser power | 1500W | 2000W | 3000W |
| Ratnd power | 6KW | 7KW | 8KW |
| Suply wiage(V) | 220V/50HZ | 220V/50HZ | 380V/50HZ |
| Spot atijusiment range | 0.1-5MM | 0.1-5MM | 0.1-5MM |
| Laser fequeney | 1-10000HZ | 1-10000HZ | 1-10000HZ |
| Conling syeem | Cw 1500 | Cw2000 | Cw3000 |
| Observing system | Red ligit | ||
1. Provide the testing and packaging videos after the machine is produced.
2. Quality inspection certificates of various countries.
3. The 12-year capability independent production and R&D ensure high quality while maintaining a low price.
Answer:
It is mainly suitable for common metal materials such as stainless steel, carbon steel, aluminum alloy, copper, and galvanized sheet. Different materials require parameter adjustments (e.g., aluminum alloy needs high-frequency pulse mode), and some highly reflective materials (e.g., pure copper) require special configurations.
Answer:
Typically, it can weld 0.1-6 mm (stainless steel/carbon steel), while aluminum alloy is slightly weaker (0.5-4 mm). The actual thickness depends on the machine's power (e.g., 1000W for 2 mm, 3000W for 5 mm). It is recommended to match the power to your needs.
Answer:
Key advantages include:
Smaller heat-affected zone, less deformation;
No filler wire needed (autogenous welding) or minimal wire feeding;
2-3 times faster welding speed;
No smoke/dust (requires dust extraction equipment);
Lower skill threshold, easier for beginners.
Answer:
Laser is Class 4, so safety measures are mandatory:
Operators must wear laser safety goggles;
Work area must have barriers/warning lights;
The machine must include emergency stop buttons and infrared safety sensors.
Answer:
Energy consumption is lower than traditional welding (e.g., a 1000W machine uses ~1 kWh per hour), but cooling systems (air/water) also consume power. Main costs include argon gas (shielding gas) and replacement of consumables (lenses/nozzles).
Answer:
Laser welding is sensitive to gap spacing-keep gaps under 0.2 mm (varies by material thickness). For larger gaps, use automatic wire feeding or modify the joint design.
Answer:
Routine maintenance is simple:
Regularly clean lenses/nozzles;
Check the cooling system;
Common issues include lens contamination or cooling alarms. Most manufacturers offer remote support and 1-3 years of warranty.
Answer:
Possible causes and solutions:
Porosity: Check shielding gas flow/purity, adjust beam angle;
Cracks: Preheat material (e.g., high-carbon steel) or reduce speed;
Parameter issues: Contact the manufacturer to optimize power/frequency settings.
Answer:
Based on needs and budget:
Thin sheets (1-3 mm): 1500W;
Medium-thick plates (4-6 mm): 2000-3000W;
Aluminum/high-reflectivity materials: 1500W+ with pulse function.
11. Question: Do you provide training?
Answer:
Training: We offer free on-site/online training, covering:
Machine setup & safety protocols;
Parameter adjustment for different materials;
Troubleshooting common issues.
Support: Post-training, we provide operation manuals + video guides, and technicians are available for remote assistance.
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