Sheet metal welding: MIG vs TIG
For large-scale metal fabricators like us at KMF Group, sheet metal welding is a major part of the fabrication process. Here, we analyse the difference between two common techniques.
MIG vs TIG
Sheet metal components that include two or more components of sheet metal, or profiles and shapes that cannot be cut or formed from a single sheet of material and thereby are impossible to manufacture as one, may well rely on welding to combine all individual sheet metal components into the final fabricated product.
Highly skilled welders with high levels of knowledge and inspection experience are needed to produce high quality, robust, clean and aesthetic welds, particularly with stainless steels and aluminium, that consistently meet the customer specifications.
For complex fabrications that demand high precision, greater control and tight dimensional tolerances the main aim is to avoid distortion and burn-through while ensuring necessary mechanical strength for the application. To do this, metal fabricators must select the correct welding techniques, employ the latest technology and use skilled and qualified staff.
Metal Inert Gas (MIG)
Metal Inert Gas (MIG) welding is an arc welding technique whereby a continuous feed of solid wire electrode is fed through a welding gun and into the welding pool at a set speed. This heats the desired area on the sheet metal components, causing it to melt and fuse the metals. A shielding gas also passes through the welding gun to avoid contamination of the welding pool.
MIG welding is suitable for a variety of materials such as mild steel, stainless and aluminium. It is a more than acceptable standard for many fabrication requirements, often favoured for its versatility, speed, and cost-effectiveness.
Tungsten Inert Gas (TIG)
Tungsten Inert Gas (TIG) welding is a welding process that uses a non-consumable tungsten electrode to deliver the current to the welding arc. Similar to MIG welding, a shielding gas is used to protect the heated area from contamination.
TIG welding is commonly used for stainless steel components, thin gauge mild steel and non-ferrous metals such as magnesium, copper and aluminium. It is preferred for clean, aesthetic weld results but is significantly more complex operationally and requires a higher level of skill.
As a result, TIG welding is often a more expensive metal welding solution.
Extensive MIG and TIG welding services
As leading sheet metal fabricators, KMF offers extensive MIG and TIG welding services. We currently house 20 welding bay facilities (six dedicated to stainless steel) and operate two fully automated, ABB robot MIG and TIG welding cells, accompanied by stud and spot-welding machinery that enables KMF to fulfil almost any customer requirement.
24/7 to deliver coded welding
Recognised as a core skill for our business, our award-winning Team has a strong focus on high-level welding, and our welders work 24/7 to deliver coded welding to desired standards and in-house dye penetration.
New product introduction engineers
Selecting the most efficient welding solution should be carried out on a case-by-case basis, and therefore our expert New Product Introduction Engineers will take time to determine the best materials and welding processes required for your specific design and product application.
Discuss high-volume MIG welding
For more information or to discuss high-volume MIG welding as part of your fabrication project, please get in touch via our contact page or call 01782 569060.
FAQs about MIG and TIG welding
For metal fabricators, successful sheet metal welding includes selecting the appropriate welding method after considering matters such as material, productivity, burn-through, distortion, excessive heat-affected zones, weld appearance and secondary finishing methods.
- Material: MIG welding is suitable for a range of material thicknesses, from thin gauge sheet metal to more substantial structural parts. With TIG welding, the welder can control the heat input so it is often used at lower currents for fragile and soft exotic metals where heat and distortion must be minimal.
- Productivity (Cost & Speed): MIG welding often delivers higher productivity as it is a much quicker process that requires much less time and skill. However, this should not always be assumed. When part of a more comprehensive fabrication project, TIG welding can bypass the need for grinding and other finishing methods which can add to overall costs.
- Strength: Although TIG welding is more complex and slower than comparative approaches, the process provides the welder with greater control which allows for stronger, higher quality welds, particularly important when manufacturers are seeking fabrication of watertight components.
- Component Design: MIG welding is selected when sheet metal components require long welds to be made without pausing, when the weld needs to be applied quickly or if the sheet material is too thick for spot welding. TIG welding delivers a more precise superior finish and is the chosen method when the design includes intricate detail.
- Weld Appearance: Unfortunately, it is impossible to carry out sheet metal welding without leaving a visible burn mark on the surface of the sheet metal. The weld mark can be cleaned or linished, or the part painted or polished, so the joint becomes invisible. As a result, the desired weld appearance is a significant influence of the method used.
If a product specifies a powder-coated finish, for example, a MIG weld will deliver a more than sufficient quality weld with no visible defect. However, if fabrication products require the cleanest, most aesthetic weld possible and will not be undergoing a separate finishing process, TIG will deliver a significantly more attractive result.
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