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MIG and MAG welding are advanced methods that deliver high speed and excellent weld quality. They are valued for their versatility and high deposition efficiency. MIG welding can be carried out manually or fully automated with robotic systems, making it an ideal choice for industries where maximum productivity is essential.
High-speed, versatile welding with automated precision

MIG-MAG welding stands out as a highly cost-effective process thanks to its high welding speed, low distortion, and minimal need for rework. Its strong weld seams, excellent performance on thin sheets, and reliable handling of steel, aluminum, and stainless steel make it a truly versatile technique.
Because of these significant advantages, MIG-MAG welding has become the most widely used welding process worldwide.



High Productivity – continuous wire feed enables fast welding with minimal downtime.
Versatility – suitable for steel, stainless steel, aluminum, and other alloys.
Clean Welds – reduced spatter and smooth finish with stable arc control.

Automation Ready – fully integrated with robotic arms for repeatable, precise operations.
Cost-Efficiency – reduced waste, lower labor costs, and optimized material usage.

Today, MIG/MAG welding is applied across almost every area of the welding industry. It is especially common in heavy and medium-heavy sectors such as shipbuilding, steel construction, pipeline manufacturing, and the production of pressure vessels, as well as in repair and maintenance services.
MIG (Metal Inert Gas) and MAG (Metal Active Gas) welding are semi-automatic arc welding processes that use a continuously fed consumable wire electrode and shielding gas.
  • MIG Welding uses inert gases (e.g., Argon, Helium) that do not react with the weld pool, ensuring clean and stable welds.
  • MAG Welding uses active gases (e.g., CO₂ or mixed gases) that influence arc characteristics, penetration depth, and weld bead shape.
Both processes are widely used for steel, stainless steel, and aluminum, making them versatile and cost-effective solutions for robotic welding systems.