Fiber Laser welding machine.

1. Key Features:

• High Precision: Provides extremely accurate and clean welds with minimal heat-affected zones (HAZ).
• Fiber Laser Technology: Utilizes fiber optic technology for better energy efficiency and beam quality.
• Compact Design: More compact and space-saving compared to traditional laser welding systems.
• No Consumables: Unlike traditional welding methods, it does not require welding rods or filler material.
• Automated Process: Features programmable control and robotic automation for consistent and repeatable welds.
• Fast Processing Speed: Allows high-speed welding with reduced cycle times.
• Minimal Maintenance: Longer lifespan with low maintenance due to the solid-state laser source.
• Wide Welding Range: Capable of welding thin to medium thickness metals, depending on the power of the laser.

2. Technical Specifications:

• Laser Power: Typically ranges from 500W to 3000W (can be higher for specialized applications).
• Wavelength: 1070 nm (standard for fiber lasers).
• Laser Type: Single-mode or multi-mode fiber laser.
• Beam Quality: M² < 1.2 (excellent beam focusability).
• Cooling System: Water-cooling or air-cooling system, depending on power and machine design.
• Welding Speed: Up to 10 m/min (varies based on material and thickness).
• Welding Depth: Typically up to 6mm for stainless steel and up to 8mm for aluminum (varies with power).
• Accuracy: ±0.1 mm (depending on machine setup).
• Control System: CNC-based or integrated with robotic arms for automated operations.
• Voltage: 220V-380V, depending on the model.
• Pulse Duration: Adjustable from nanoseconds to milliseconds for various welding needs.

3. Applications:

• Automotive Industry: Welding of thin metals in automotive parts, including exhaust systems, chassis components, and body panels.
• Aerospace: Welding of high-strength and lightweight materials used in aircraft manufacturing.
• Medical Equipment: Joining delicate components in medical devices and instruments with high precision.
• Electronics: Welding of thin metal components, connectors, and sensors in electronic assemblies.
• Jewelry Manufacturing: Fine welding of small metal parts in the jewelry industry.
• Tooling and Machinery: Precision welding of components in manufacturing and industrial applications.
• Battery Manufacturing: Laser welding of battery cells, tabs, and components for rechargeable batteries.

4. Benefits:

• High Precision & Quality: Produces precise, clean welds with minimal thermal distortion.
• Energy Efficiency: The fiber laser is more energy-efficient than traditional laser sources, reducing operational costs.
• No Need for Filler Materials: Eliminates the need for additional welding materials, saving cost and material.
• Low Heat Affected Zone (HAZ): Reduces thermal distortion, making it suitable for welding sensitive or thin materials.
• Speed & Efficiency: Faster welding speeds compared to conventional welding techniques, increasing production throughput.
• Minimal Post-Weld Finishing: High-quality welds require less post-weld processing or finishing.
• Environmentally Friendly: Lower emissions, reduced waste, and minimal use of consumables.
• Flexibility: Suitable for welding a wide range of metals, including steel, stainless steel, aluminum, copper, and titanium.