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Autogenous welding is a welding process in which no filler material is used. Most welders are familiar with gas metal arc welding (GMAW), more often referred to as MIG welding, which uses a consumable electrode that becomes the filler material for the weld. Autogenous processes like gas tungsten arc welding (GTAW) or TIG welding, on the other hand, use a non-consumable electrode that does not act as filler material, although filler wire can be used with the non-consumable tungsten electrode.
So, is filler material required to make a good weld? Despite the commonly held belief that using filler creates a stronger weld, the answer is no. Autogenous welding, when used appropriately, yields excellent welds for critical industry applications such as fuel lines and hydraulic piping. In this post, we’ll explore the advantages of autogenous welding after first defining the process.
It is true that, when bonding two metals together permanently, there will be gaps that must be filled. However, that doesn’t necessarily mean that a filler metal is required or that filler metal makes the weld stronger. The figure below shows how welding processes are categorized.
As shown in the figure, fusion welding—where the base (metals being joined) materials are heated to melting - can be divided into three categories: homogeneous, heterogeneous, and autogenous.
As the list above illustrates, filler material is not necessary for autogenous welds. In fact, filler is not required for solid state welding, either, in which the applied temperatures are lower than the melting point of the base material. Solid state welding can thus be considered autogenous as well. There are several types of autogenous welding processes, and each has its own distinct advantages and limitations.
The most commonly used autogenous welding processes are:
Not using a filler material can simplify the welding process, making it easier to achieve a good weld. Other advantages of autogenous welding are listed below.
While many welders are aware of the benefits of welding with filler wire—such as increased welding speed—fewer recognize the benefits that autogenous welding offers, especially when performed using a reliable, hygienic method such as orbital GTAW. Autogenous welding:
These advantages of autogenous welding make it ideal for jobs or projects in which thin-walled pipe or tubing is used, such as fuel and hydraulic lines for automobiles, industrial equipment, and aircraft, as well as piping for wastewater treatment and semiconductor processing. The use of this method should be limited to cases where pipe or tube wall thickness is minimal (approximately less than 3 millimeters); otherwise, lack of penetration depth may result in welds that are subject to failure. For precision and to optimize uniformity, an orbital welding process using an automated weld head is the best option. In addition to improved weld quality, orbital welding also increases the speed of production, which further increases the cost savings of not using a filler material.