Laser welding has become a key technology for companies seeking faster, cleaner, and more precise welds. According to Future Market Insights, the global laser machinery market is growing at an annual rate of 5.7%, driven by industries such as automotive, aerospace, and metalworking.
What is a laser welding machine?
Technically, a laser welding machine is an industrial device that uses a concentrated laser beam as a heat source to melt and join materials with great precision. The laser generates extremely high energy density in a minimal area, allowing for welding with fine, deformation-free welds.
Main components of a laser welder
Laser source: fiber optic, CO₂, or Nd:YAG
Welding head
Electronic control system
Cooling system
Each technology has specific applications:
Fiber optic: high efficiency, low maintenance, ideal for welding metals.
CO₂: useful for non-metallic materials.
Nd:YAG: Used in pulsed and highly reflective applications.
Difference between laser welding and MIG or TIG welding
Unlike MIG, TIG, or spot welding, laser welding offers:
Fastener working speed
Thinner, cleaner welds
Less thermal distortion
Greater precision and automation
However, it requires specific technical training and a working environment with appropriate electrical and safety conditions.
How to choose the best laser welding machine?
When choosing laser equipment, consider the following criteria:
Material type and thickness
Although laser welding works with stainless steel and aluminum, the latter requires more power due to its high reflectivity and thermal conductivity.
Fusion depth and bead width Define the type of joint and finish your piece or project requires.
Production level
Portable: For on-site work or large parts, lower precision.
Manual: Versatile and practical for small or medium-sized runs.
Automated (CNC or robotic): Ideal for high-speed, high-precision mass production, although it requires a greater investment and specialized programming.
Technical Requirements of the Workspace
Stable electrical installation (single-phase for 1500W-2000W, three-phase for 3000W)
Fume extraction ventilation
Certified eye protection for the operator
Conclusion
Currently, fiber optic laser machines are considered the best option for metal welding due to their high energy efficiency, low maintenance costs, and excellent beam quality. However, before making any investment, it is essential to test welding with your own materials and consult a specialized technical provider to ensure compatibility, safety, and maximum productivity in your workshop or industrial plant. At MIM Metall’s workshop, you can test different types of machinery and also receive appropriate training in laser welding, ensuring a successful implementation and an optimized process from day one.