Welding Gun Selection


Selecting the Right Gun for Your Welding Application
by Bob Thayer, Product Manager, Industrial Equipment and Welding Guns, The Lincoln Electric Company

 

Selecting the Right Gun for Your Welding Application Whether the setting is shipbuilding, construction or heavy fabrication, selecting the proper gun for the welding application is critical to the fabricating process. When choosing guns, welders need to consider their own personal preferences, as well as the gun’s total cost of ownership (including its expendable parts) and expected service lifespan. Not only should welders keep in mind the upfront cost of the gun, they also need to consider its associated costs over time. Selecting the right gun initially may save the user significant time and money in the long run.

Step One: Accounting for the amperage and duty cycle

When selecting a welding gun, first consider the type of material that will be welded, as well as its thickness. These factors will reveal the amperage necessary to perform the proper weld. Choose a gun with an amperage rating that matches the needs of the application and aligns with the capability of the power source that will be used. There’s no reason to select a gun above the amperage needed to weld – if the amperage is too high, a welder likely will end up with a gun that is too heavy, leading to unnecessary operator fatigue, or one that is too bulky for the workspace, complicating the task at hand. For instance, don’t select a 500 amp gun if only 350 amps are needed for the application.

Once amperage is determined, a welder can establish the gun’s necessary duty cycle, or how long it can run continuously in a 10 minute cycle. If the gun will be used in semi-automatic applications, 60 percent duty cycle is most common and should suffice; however, for robotic welding, some manufacturers offer guns rated up to 100 percent duty cycle, as there is no need to account for operator fatigue or time to rest.

Another factor relating to the rated duty cycle of the gun is the type of shielding gas used. As indicated, many semiautomatic guns are commonly rated at 60 percent duty cycle when used with CO2 shielding gas. Some high capacity designs are rated at 100 percent duty cycle with CO2 gas.  However, as mixed gases containing Argon are introduced to the application, the same guns’ amperage rating is decreased at a given duty cycle.

Also, more common in automated applications, the question of air-cooled vs. water-cooled guns or torches must be addressed. In short, water-cooled torches have the capacity to run cooler and be lighter in weight, but the cost can be more than double that of an equivalent air-cooled gun with the same duty cycle.

 Selecting the Right Gun for Your Welding Application

Selecting a high amperage gun when unnecessary may result in gun with too much unnecessary bulk or weight.

Selecting the Right Gun for Your Welding Application

Water-cooled robotic torches can double the cost of an equivalent air-cooled torch with the same duty cycle.

Selecting the Right Gun for Your Welding Application

Lincoln Electric’s Anti-Seize™ thread design for contact tips and diffusers help to dissipate heat and extend service life.

 Selecting the Right Gun for Your Welding Application

Selecting the Right Gun for Your Welding Application

Select a gun with a full group of consumables, including various nozzles, like this extended version for tight spaces.

Step Two: Examining the expendable parts options

After considering amperage and duty cycle, examine a gun’s expendable parts. These components will degrade over time due to heat, spatter and wear during normal welding operations, so their lifespan affects the cost of gun ownership over time. Parts that last longer tend to keep costs down. 
 
Next, consider the mass of the expendable parts. Remember, within reason, the larger the contact tip, the more heat it can withstand over long periods of time, giving it better heat deflection and longer life. Try to choose contact tips from a manufacturer that offers contact tips with a larger mass; for instance, Lincoln Electric provides contact tips that contain up to 40 percent more mass than other welding equipment suppliers.

Third, think about the type of alloy used in the contact tip, as it affects both the heat resistance and wear resistance. For example, when welding wire is fed through the tip, the hole can become elongated or misshapen over time if the material doesn’t withstand heat or wear well, resulting in improper electrical contact and welding issues caused by a wandering arc, discontinuities caused by dropouts and other issues. While many contact tips are made from various types of copper, some manufacturers have begun to market designs containing harder materials. These harder materials can withstand greater heat, last longer and resist elongation or wear at the contact tip.

Welders should also consider their application when selecting the proper nozzle. There are many different nozzle types, shapes and sizes and choosing the best match for the application can make a big difference in performance. For instance, if welding in a tight space, use a nozzle that is longer and more tapered, as the conical shape allows for easier accessibility into tight joints. In addition, some manufacturers, like Lincoln Electric, offer expendables that position the contact tips slightly outside of the nozzle to allow even greater access to tight areas.

Think about the rating of the expendable parts, as well. Those with higher amperage are larger in size and mass, meaning they withstand more heat and have a longer life, but their size may make them difficult to use in tight spaces. Again, don’t choose a higher amperage rating than is necessary for your expendable parts.

 

Step Three: Accounting for personal preference

Because operators use and hold their guns in their hands all day long, it’s important for welders to consider their own comfort levels and preferences when selecting a welding gun, as these factors can affect weld quality and efficiency.
 
For instance, some welders may prefer a curved, more ergonomic handle that aligns with the shape of the operator’s hand. Sometimes, these handles are lighter weight, reducing instances of fatigue.
 
Operators should also consider which type of expendable parts they prefer: thread-on, in which nozzles are screwed into the gun, or slip-on, in which the expendable parts are pressed on and held in place with the help of an O-ring.

  Selecting the Right Gun for Your Welding Application

Consider operator preferences for handle type and gun weight.

 

Selecting the Right Gun for Your Welding Application

 

Selecting the Right Gun for Your Welding Application

Selecting the Right Gun for Your Welding Application

LGS SERIES LGP SERIES Diffusers are commonly offered in thread-on or slip-on models.

 

Step Four: Making maintenance simple

Maintaining a welding gun also affects the cost of ownership. Because guns are so integral to the welding process, they undergo significant wear and tear. Choosing a gun family with a simplified design is a sure way to make maintenance easy. And, not only are guns fighting heat, they’re also fighting operator abuse, leading to maintenance needs. To make maintenance simple, select guns that are designed to hold up to both heat and impacts.

When choosing a welding gun it is important to do your research. In order to obtain all of the elements necessary to weld, and ensure that they work well together, you typically have to select one manufacturer. Make sure you study your choices and select a welding manufacturer that offers high quality products and a wide array of options to meet your application, performance and operator preference needs.


Selecting the Right Gun for Your Welding Application

Choose your welding guns carefully to reduce cost of ownership, enhance operator comfort and to select the right gun for the application.