Archive: Jul 2023

MIG vs. TIG Welding in Sheet Metal Fabrication

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Electric arc welding is crucial in sheet metal fabrication because it creates strong, durable bonds between metal pieces. Among the numerous electric arc welding methods, Metal Inert Gas (MIG) and Tungsten Inert Gas (TIG) welding stand out for their quality, efficiency, and versatility.

This blog will compare MIG vs. TIG welding and help you determine which method is best suited for your specific projects.

Comparing MIG vs. TIG Welding

Choosing between MIG and TIG welding involves a thorough assessment of multiple factors. These include material type and thickness, required production speed, weld appearance, quality expectations, the welder’s skill level, and budget constraints.

MIG welding is often preferred for projects that need high production rates and user-friendly operation, making it suitable for various applications. Conversely, TIG welding offers precision and clean, aesthetic welds that are ideal for intricate or specialized tasks.

MIG Welding

Also called Gas Metal Arc Welding (GMAW), MIG welding uses a continuous solid wire electrode fed through a welding gun to fuse base materials. A shielding gas is channeled through the welding gun to protect the weld pool from contamination by the ambient air.


MIG welding has a high production rate and user-friendly nature, making it suitable for various applications. Some of its other key advantages include:

  • High production rate: This welding type significantly increases overall productivity, as its faster than other methods.
  • Ease of use: MIG welding is suitable for both novice and seasoned welders.
  • Versatility in materials:A range of metals including mild steel, stainless steel, and aluminum can be welded using this technique.


However, MIG welding also has some disadvantages:

  • Limited outdoor use: The shielding gas can be easily blown away in windy conditions, making it less suitable for outdoor applications.
  • Less precise than TIG welding: This technique offers good control but is generally less precise than TIG welding.
  • Higher equipment cost: Required equipment can be more expensive than other welding methods, particularly considering the cost of consumables such as shielding gas and wire electrodes.

TIG Welding

TIG welding, or Gas Tungsten Arc Welding (GTAW), employs a non-consumable tungsten electrode to form an arc between the electrode and base material. A separate filler rod adds material to the weld pool, while a shielding gas protects the weld from contamination.


TIG welding is renowned for its high precision and control, making it ideal for applications requiring clean and aesthetically pleasing welds. Other advantages of TIG welding include:

  • High precision and control: TIG welding offers greater control over the welding process, allowing for precise, high-quality welds.
  • Clean and aesthetic welds:Due to their precision, this method produces clean, visually appealing welds with minimal spatter and post-weld cleanup.
  • Versatility in material thickness: TIG welding can accommodate a broad spectrum of material thicknesses, from thin sheets to thick plates.


TIG welding also presents certain drawbacks:

  • Slower production rate:Compared to MIG welding, this technique usually has slower speeds.
  • Requires more skill and experience:TIG welding is considered to be more difficult to grasp for inexperienced or new welders.
  • Limited material compatibility: This method is less compatible with certain materials, such as cast iron and some alloys.

Discover the Perfect Welding Solution With Metal Works of High Point

At Metal Works of High Point, we understand the importance of selecting the right welding technique for your sheet metal fabrication projects. Our skilled team will guide you and help you decide if MIG or TIG welding suits your needs best.

Our other services include laser cutting, CNC forming and machining, finishing services, and more. Contact us today to learn more!