A Comprehensive Guide: Welding Positions for Welders

Welding is a fundamental skill in fabrication and construction. It requires adaptability to various positions for impeccable welds. In this comprehensive guide, we’ll look into the key aspects of welding positions. From the foundational flat to the challenging overhead or inclined pipe.

Understanding Welding Positions:

Welding positions refer to the specific orientation of the welding joint relative to the welder, each presenting unique challenges. The four basic welding positions are:

  • Flat (1G, 1F)
  • Horizontal (2G, 2F)
  • Vertical (3G, 3F)
  • Overhead (4G, 4F)

These can be used when welding groove weld (G) or fillet weld (F), and while they are fundamentally the same regarding the orientation of the weld, they differ in weld joint configuration. Additionally, pipe welding introduces 5G, 5F, 6G, and 6GR positions for more complex applications.

 

1. Flat Welding Position (1G, 1F):

A flat position is one of the most common and easiest to work with. The flat position involves welding on the upper side of a horizontal surface, making it one of the most straightforward positions. Simply put, you place your piece on a flat surface, such as a welding table, and weld on it. It is because of this makes it the most straightforward and commonly used position. This is ideal for fillet welds (1F) and groove welds (1G), this position provides good visibility and control, making it accessible for beginners. You can use the most common welding processes (MIG, TIG, or Stick welding) with the parameters recommended by the manufacturer. Also, you can push or pull, depending on the method and thickness of the material.

Illustrative image showing how too much heat will create carbide precipitation and will lose corrosion resistance
2. Horizontal Welding Position (2G, 2F):

The horizontal position involves welding on a joint that is essentially horizontal, with the weld axis running parallel to the ground. While fillet welds (2F) are more accessible, groove welds (2G) present a different set of challenges due to the risk of molten metal dropping into the groove. In this situation, gravity has a lateral influence on the molten weld pool, which can drag it away from the joint, causing underfill or lack of fusion. That’s why you must adjust your welding parameters and adapt different welding techniques when welding in a horizontal position. However, welding in a flat or horizontal position is still considered more straightforward than other positions.

Image of two pieces of welded metal showing different weld colours
3. Vertical Welding Position (3G, 3F):

Vertical welding involves welding on a joint where the axis is positioned vertically. The vertical up and down welds present unique challenges because gravity significantly impacts the molten metal, making it more prone to sagging or dripping. This position is frequently encountered in applications like pipe welding and vertical seams on structural components. Vertical up and down welds present unique challenges, requiring adjustments in parameters and techniques to control the weld puddle. Due to the gravity, you will need to adjust the travel speed, angle, and heat input. For example, a vertical weld with the same parameters as a flat weld will have significantly worse quality with the common defects being underfill, lack of fusion, or penetration. 

Vertical position welding can be performed on fillet and groove joints (3F and 3G) and pipes. However, unlike horizontal and flat positions, vertical welds are performed either up or down rather than pushing or pulling. Therefore, we have vertical up and vertical down welds.

Image showing the components of a TIG torch
  • Vertical up

 Is the preferred welding method in most applications and thicker materials. As you weld from the bottom to the top of the weld joint, you prevent the molten metal from flowing downward and piling up. The heat buildup is also higher, which is suitable for most thicker materials and complex weldments.

  • Vertical down

Includes welding vertically, from the top of the joint to the bottom. This isn’t a preferred method since molten metal can quickly flow downward without correctly filling the joint, penetrating and fusing the pieces. Still, it can be used on a thin sheet or aluminium pipe welding once there is a risk of burn-through or a need for fast travel speeds.

An illustrative image of two welders showing the negative and positive polarity respectively

Due to the effects of gravity, welding in a vertical position will call for specific parameters and proper welding techniques. You will need to reduce the wire feed speed and voltage to reduce the fluidity of the weld puddle, which stops it from flowing downward.

In addition, vertically welding in a straight, stringer bead will result in a ropey bead that doesn’t fuse into the edges. That’s why you must weave the torch in a zigzag motion, triangle, or reverse T for vertical weld.

4. Overhead Welding Position (4G, 4F):

Performing welds overhead poses challenges similar to vertical welding, with molten metal flowing towards the welder. Since you are dealing with gravity, you need to reduce the fluidity of the puddle by lowering the voltage and wire feed speed (amperage). Still, ensure the heat is high enough to provide proper penetration and fusion. A 4G weld requires slight weave or puddle manipulation, like vertical welding. It is commonly used for applications requiring higher strength and deeper penetration. 

Illustrative image explaining AC and DC pulse

Once again, you want to help the puddle reach both sides and fill the joint evenly. Welding the underside of beams will require a 4F position, which is considered safer since the molten puddle can drip down onto a bottom shelf rather than your face. Protective gear is crucial to protect both the welder’s face and body during overhead welding.

Pipe Welding Positions (5G, 5F & 6G, 6GR):

In pipe welding, positions like 5G and 6G introduce complexities due to fixed and inclined pipes. 5G and 6G positions are used in pipe welding, and they can be used when joining two pipes with groove welds (G) or when welding pipe to a plate using fillet weld (F). 

Vertical Pipe Welding Positions (5G and 5F)

The 5G position is commonly used in pipe welding applications where the pipe cannot be rotated, such as in fixed or overhead pipe installations. Welding in the vertical position, especially on pipes, presents challenges due to the effects of gravity on the molten metal. Properly controlling the weld pool, penetration, and bead shape is crucial to ensure a sound and quality weld. It’s a critical skill for welders in the construction, petrochemical, and pipeline welding industries.

Image if a file being used to clean a stainless pipe for TIG welding

A 5F weld joint is used when a tube is welded to a plate. The axis of the tube is horizontal, and the plate is vertical. The entire weldment is fixed, so you have to go vertically up around the tube, once again, having to control the puddle and parameters to ensure proper penetration and avoid molten filler metal from dripping.

The image shows the difference between weld quality from inside the pipe if the pipe was purged (on the left) vs. if the tube was welded without a purging gas (right).
Inclined Pipe Welding Positions (6G, 6GR)

Similar to 5G, the pipe is fixed, but in 6G, it is inclined at a 45-degree angle. As a beginner, you will rarely have to work in this position, but it is common in fabricating and installing pipes and pipelines in oil and gas plants and industrial plants.

The main issue of pipeline welding in 6G is the fact that the pipe is inclined and fixed, so you have to weld all around it. To do so, you must combine vertical, horizontal, and flat welding, often combined with overhead welding in cramped spaces. Therefore, it requires unique sets of skills and an understanding of the potential issues to produce sound welds.

An illustrative image showing an aluminium plate and a steel plate and showing the transition joint of the two plates

The 6GR is a particular welding position used for welder testing & production welding. The letter R denotes “Restriction,” meaning the position uses a restriction ring above the groove. This restriction ring is tack welded to the upper side pipe, and welders must show exceptional skills to properly weld around it. 

Image of Tig welding on a;uminium
Final Thoughts:

Mastering welding positions is essential for welders seeking to join metals effectively. From the foundational flat position to the intricate 6GR, each orientation presents unique challenges, requiring adaptability in welding parameters, techniques, and preparation. With this comprehensive guide, welders can navigate various positions with confidence and skill.

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