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Laser Welding

Our laser welding solutions offer high-precision, contactless welding for a wide range of materials, including metals and plastics. The process uses a focused laser beam to melt and fuse materials together, creating strong, durable welds with minimal heat distortion. Ideal for industries such as automotive, aerospace, and electronics, our laser welding technology provides clean, high-quality results with excellent repeatability.
Laser welding employs a concentrated laser beam to join materials, ensuring strong, precise welds with minimal thermal impact. This process is perfect for delicate or intricate assemblies, as it allows for precise control and minimal material deformation. Our laser welding solutions are designed for high-speed production and are suitable for applications requiring superior strength and aesthetics, ensuring long-lasting, reliable connections.

Laser Welding Technology

advantages of laser Welding

High Precision and Minimal Distortion

Laser welding provides highly accurate welds with minimal heat-affected zones (HAZ), reducing thermal distortion and ensuring precise joining of materials, especially in delicate or complex parts.

Strong and High-Quality Welds

Laser welding produces deep penetration, high-strength welds that are cleaner and more durable compared to traditional methods, with fewer defects and less post-weld processing required.

Ability to Weld Dissimilar Materials

Laser welding can effectively join dissimilar materials, such as metals with different melting points or properties (e.g., aluminum to steel), making it highly versatile for specialized applications.

High-Speed and Automated Welding

The process can be easily automated, enabling high-speed production with consistent quality, making it ideal for large-scale manufacturing in industries like automotive, aerospace, and electronics.

types of laser Welding

Keyhole Laser Welding

A high-energy beam creates a deep, narrow penetration in the material, producing strong welds with deep penetration and minimal distortion. It is commonly used for welding thick materials and high-strength joints in industries like automotive and aerospace.

Conduction Laser Welding

The laser heats the material without melting it all the way through, resulting in shallow, wider welds. This method is used for thin materials and applications where precise control over heat input is required.

Laser Spot Welding

Involves focusing the laser beam on a small area to create localized weld points. It is used for applications that require joining small parts or thin materials, such as electronics or medical devices.

Laser Seam Welding

Continuous welding where the laser moves along the seam of the workpiece, creating a strong, uniform weld. This method is ideal for joining materials over long distances, such as in the automotive or manufacturing industries.

Hybrid Laser Welding

Combines laser welding with another welding process, such as MIG or TIG, to improve weld quality and increase speed. This type is ideal for joining thick materials while benefiting from the precision of laser welding.

laser vs alternate

laser Welding
Welding Speed 95%
Weld Quality & Precision 100%
Efficiency 90%
Low Heat Affected Zone 95%
Flexibility 90%
Eco-Friendly 90%
Tig/MIG Welding
Welding Speed 65%
Weld Quality & Precision 80%
Efficiency 75%
Low Heat Affected Zone 60%
Flexibility 85%
Eco-Friendly 70%
arc welding
Welding Speed 60%
Weld Quality & Precision 65%
Efficiency 70%
Low Heat Affected Zone 55%
Flexibility 70%
Eco-Friendly 60%
brazing or soldering
Welding Speed 55%
Weld Quality & Precision 75%
Efficiency 60%
Low Heat Affected Zone 80%
Flexibility 90%
Eco-Friendly 75%

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