UNDERSTANDING GMAW/MIG-MAG WELDING: A COMPREHENSIVE GUIDE

Gas Metal Arc Welding (GMAW) often collectively referred to as MIG-MAG welding, is a widely used welding process in which a welding arc forms when the welding gun connects the power source to the workpiece and the feeding welding wire. This process is highly versatile and can be used on a variety of metals, including steel, aluminum, and stainless steel.

Applications of MIG-MAG welding:

• Steel Fabrication and Manufacturing: MIG-MAG welding is widely used to assemble steel beams, frames, and complicated steel structures as it is a quick and efficient way to produce high-quality welds.
• Automation and Mechanization: Widely used within the automotive industry to assemble car automotive bodies, MIG-MAG is a great way to weld thin sheets and complex structures made of steel, aluminum, and light alloy.
• Shipbuilding: Another sector where MIG-MAG flourishes is shipbuilding as it offers a quick and high-quality weld of hulls and other superstructures made of steel, aluminum, and alloy.?

Advantages of MIG-MAG welding:

• Quality of weld: The quality of weld produced during MIG-MAG is great which results in high-quality and great-looking welds consistently.
• Versatility: Versatility is what makes MIG-MAG a top choice for welders as it can be performed on various materials like steel, aluminum, iron, magnesium, etc. that are semi or fully automatic.
• Beginner-Friendly: Because of its short learning curve, MIG-MAG is one of the first welding methods that welders learn. It is simple to learn, especially for those who have little to no welding experience.
• Weld Splatter: MIG-MAG produces minimal weld splatter which can be easily removed.

Disadvantage of MIG-MAG welding:

• High Setup Cost: The setup cost for MIG-MAG welding is significantly higher due to the incorporation of components such as shielding gas, replacement parts, and nozzles.
• Not suitable for outdoors: Due to the use of shielding gas, MIG-MAG cannot be performed outdoors due to changing temperatures and a windy atmosphere. This puts the weld’s purity at stake too.
• Limited positions: Overhead and/or vertical welding positions would not be possible with MIG-MAG resulting in limited flexibility.
• Not suitable for thicker metals: Due to its immense heat input, MIG-MAG welding is not the best option for thicker metals.

How Plymovent can help

While MIG-MAG welding can be challenging, Plymovent offers a wide range of equipment that can be used to tackle harmful fumes, gases, and vapors released during the welding process.

• Mobile Fume Extractors for your on-the-go tasks.
• Stationary Fume Extractors for your stationary welding activities within your workshop.
• Downdraft Tables is a combination of a workbench and a fume extractor.?
• Extraction Arms with a reach of up to 4 meters to reach your intensive welding activities.
• And Many More!

One thing that makes us stand out is we also offer custom solutions tailored to your needs and requirements. You can either contact us at +1 800 465 0327 or email us at [email protected] to learn more about our products and offerings.