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TIG Welding Aluminum | Lincoln Electric Tig Welding Process Parameters

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TIG Welding Aluminum | Lincoln Electric

TIG Welding Aluminum | Lincoln Electric tig welding process parameters

TIG Welding AluminumAlthough many metals are TIG welded, the metal most frequently associated with the process is aluminum, especially with metals of a smaller thickness. Many other processes, of course, can join aluminum, but in the lighter gauges the most applicable process is TIG. The popularity of aluminum in automotive applications has brought TIG welding to a new golden age. Mechanically strong and visually appealing, TIG welding is the number one process chosen by professional welders for professional racing teams, and the avid auto enthusiast or hobbyist.

That Confusing Thing About Aluminum

The process is well suited for aluminum, but there are a few characteristics of the metal that bring up points that must be considered if this material is to be welded with consistent ease and quality. The pure metal has a melting point less than 1200ºF and does not exhibit the color changes before melting so characteristic of most metals. For this reason, aluminum does not tell you when it is hot or ready to melt. The oxide or "skin" that forms so rapidly on its surface has a melting point almost three times as high (3200º+F). To add to this confusion, aluminum even boils at a lower temperature (2880ºF) than this oxide melts. The oxide is also heavier than aluminum and, when melted, tends to sink or be trapped in the molten aluminum. For these reasons, it is easy to see why as much as possible of this oxide "skin" must be removed before welding. Luckily, the reverse polarity half of the AC arc does an outstanding job of cleaning off quantities of this oxide ahead of the weld.

TIG Welding Aluminum | Lincoln Electric tig welding process parameters

That Aluminum is Hot

Aluminum is an excellent conductor of heat. It requires large heat inputs when welding is begun, since much heat is lost in heating the surrounding base metal. After welding has progressed a while, much of this heat has moved ahead of the arc and pre-heated the base metal to a temperature requiring less welding current than the original cold plate. If the weld is continued farther on to the end of the two plates where there is nowhere for this pre-heat to go, it can pile up to such a degree as to make welding difficult unless the current is decreased. This explains why a foot or hand Amptrol™ (current control) is recommended with your Lincoln Precision TIG® welder – it enables you to easily change the current while simultaneously welding. Some aluminum alloys exhibit "hot short" tendencies and are crack sensitive. This means that at the range of temperatures where the liquid alloy is slushy (part solid and part liquid) or just turned solid, it has not quite enough tensile strength to resist the shrinkage stresses that are occurring from cooling and transformation. The proper choice of filler metal and welding procedures along with smaller beads can help eliminate many problems of this kind. Some experts recommend backstepping the first inch or so of each aluminum weld before finishing in the normal direction. 

Filling the Gap

TIG Welding Aluminum | Lincoln Electric tig welding process parameters

The metal produced in the weld pool is a combination of filler and parent metals that must have the strength, ductility, freedom from cracking, and the corrosion resistance required by the application. See table below for recommended filler metals for various aluminum alloys.

Maximum rate of deposition is obtained with filler wire or rod of the largest practical diameter while welding at the maximum practical welding current. Wire diameter best suited for a specific application depends upon the current that can be used to make the weld. In turn, the current is governed by the available power supply, joint design, alloy type and thickness, and the welding position.

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TIG Welding Aluminum | Lincoln Electric tig welding process parameters

Recommended Filler Metals For Various Aluminum Alloys

Recommended Filler Metal(1)

 Base Metal

TIG Welding Aluminum | Lincoln Electric tig welding process parameters

For Maximum As-Welded Strength

For Maximum Elongation

EC

1100

1100

1100, 4043

EC 1260

1100, 4043

2219

3003

3004

5005

2319

5183, 5356

5554, 5356

5183, 4043, 5356

(2)

 1100, 4043

5183, 4043

5183, 4043

5051

5052

5083

5086

5356

5356, 5183

5183, 5356

5183, 5356

5183, 4043

5183, 4043, 5356

5183, 5356

5183, 5356

5050

5052

5083

5086

5356, 5183

5554, 5356

5356, 5554

5556

5183, 5356, 5654

5356

5554, 5356

5183, 5356

6061

6063

7005

7039

4043, 5183

4043, 5183

5356, 5183

5356, 5183

5356(3)

5356(3)

5183, 5356

5183, 5356

Notes:   

(1)  Recommendations are for plate of "0" temper.

(2) Ductility of weldments of these base metals is not appreciably affected by filler metal. Elongation of these base metals is generally lower than that of other alloys listed.

(3) For welded joints in 6061 and 6063 requiring maximum electrical conductivity use 4043 filler metal. However, if both strength and conductivity are required, use 5356 filler metal and increase the weld reinforcement to compensate for the lower conductivity of 5356.



A Quality Deposit

TIG Weld SampleGood weld quality is obtained only if the filler wire is clean and of high quality. If the wire is not clean, a large amount of contaminant may be introduced into the weld pool, because of the relatively large surface area of the filler wire with respect to the amount of weld metal being deposited.

Contaminants on the filler wire are most often an oil or a hydrated oxide. The heat of the welding releases the hydrogen from these sources, causing porosity in the weld. Lincoln ER4043 and Lincoln ER5356 aluminum welding wire is manufactured under rigorous control to exacting standards and is packaged to prevent contamination during storage. Since filler wire is alloyed, or diluted, with the base metal in the weld pool, the compositions of both the filler wire and the base metal affect the quality of the weld.

The Three Cs: Clean, Clean and CLEAN

Pieces to be welded are usually formed, sheared, sawed, or machined prior to the welding operation. Complete removal of all lubricants from these operations is a prerequisite for high-quality welds. Particular care must be taken to remove all oil, other hydrocarbons, and loose particles from sawed or seared edges prior to welding. Sheared edges should be clean and smooth – not ragged. For ease of cleaning, lubricants used in fabrication should be promptly removed.

To reduce the possibility of porosity and dross in welds, cleanliness of the welding surfaces cannot be overemphasized. Hydrogen can cause porosity, and oxygen can cause dross in welds. Oxides, greases, and oil films contain oxygen and hydrogen that, if left on the edges to be welded, will cause unsound welds with poor mechanical and electrical properties. Cleaning should be done just prior to welding. A summary of general cleaning procedures is given in the table below.

Common Methods for Cleaning Aluminum Surfaces for Welding

 Types of Cleaning

 Compounds Removed

Welding Surfaces Only

Complete Piece

Oil, grease,

moisture, and

dust (use any

method listed)

Wipe with mild alkaline solution and dry

Wipe with hydrocarbon solvent, such as acetone or alcohol

Wipe with proprietary solvents

Dip edges, using any of above

Vapor degrease

Spray degrease

Steam degrease

Immerse in alkaline solvent

Immerse in proprietary solvents

Oxides

(use any method

listed)

Dip edge in strong alkaline solution, then water, then nitric acid. Finish with water rinse and dry

Wipe with proprietary deoxidizers

Remove mechanically, such as by wire-brushing, filing, or grinding. For critical applications, scrape all joints and adjacent surfaces immediately prior to welding

Immerse in strong alkaline solution, then water, then nitric acid.

Finish with water rinse and dry

Immerse in proprietary solutions

View More Aluminum Welding How-To Articles

View Aluminum Process and Theory Articles

TIG Welding Aluminum | Lincoln Electric

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