A professional welder should know about electrode and rod types and also their applications in the welding industry. What is certain, however, is that welding requires a great deal of talent, whether you are a do-it-yourselfer who only welds a few times a year or a transformer professional who welds every day. Therefore, it is important to have a solid understanding of the many types of welding rods, as well as their applications. In the welding industry, these six different types of welding rods are the most commonly used and are the most popular. 7018 is mainly used for welding low to medium carbon steel, and the feature of the 7024 welding rod is its high iron powder content. 6010 electrodes offer deep penetration, 6011 can be used with either AC or DC power, 6012 is a general purpose welding rod and 6013 produces a soft arc with little water spatter. These metal rods are welded together to create a connection between two or more components. Because selecting the wrong weld can cause a weld to weaken, you must have welding rod experience. There are many different types of welding rods, each optimized for a specific set of projects. Types of Mild Steel Welding Rods and the Applications They Find:
- 6010: Welding work in shipyards and on pipelines
- 6011: AC or DC use
- 6012: general use
- 6013: Welding with a modest penetration
- 7018: Welding of low to medium carbon steels according to procedure
- 7024: High speed welding in a horizontal or flat position
The type of base metals, the thickness of the metals, and the welding current you use all play a role in determining which electrodes are best for the job. Electrodes can be considered consumable or non-consumable depending on their purpose. TIG welders use electrodes that are not consumable, unlike arc and MIG welders who use electrodes that are disposable. Consumable electrodes, unlike non-consumable electrodes, break down into the base metal during the electrolysis process. Electrodes are used in welding machines to create an arc, which in turn creates a weld puddle and fuses the two base metals. The electrode consists of a very fine metal wire that can have different diameters, lengths, and coatings. The electrode in MIG welding is a coil of wire that is fed into the welding gun from the machine that performs the MIG welding. On the other hand, the electrodes used in SMAW and TIG welding are somewhat comparable to Longson electrodes. During the welding process, a welder will hold a TIG or SMAW electrode in case the machine loses power. When discussing the different types of welding rods, it is important to note that some electrodes can be used with a variety of metals and currents. Still, there is a need to research the different types of electrodes that can be used with specific metals and circumstances. The following are different types of welding rods: 6010 These electrodes have been widely used recently. They are used to enable deep penetration welding, a type of welding that requires extremely high power densities of up to one kilowatt per square centimeter. Pipe welding is the most common application for E6010 electrodes while they are also used in applications such as field construction, steel foundries, water towers, shipyards, and steel storage tanks. 6011 The versatility of the 6011 electrodes lies in the fact that they can be used with either alternating current (AC) or direct current (DC). This is very handy as it allows you to easily switch from one flow form to another to see which works most effectively. 6012 The 6012 is a versatile welding rod with excellent bridging properties, especially when set below average. This electrode is also known for producing a good stable arc even when operated at high currents and generating very little spatter during operation. The best part is that it is compatible with both AC and DC power supplies.
Welding electrode types
The rod or electrode that we use in the welding industry has different types. The term "flux coating" refers to the material that covers the core wire of welding electrodes used in shielded metal arc welding (SMAW) and manual metal arc welding (MMA). Both types of welding are referred to by their acronyms. The wire is made of low-grade steel, and the finishing chemicals included in the flux coating ultimately improve the properties of the deposited metal. The flux coating consists of non-metallic and metallic components, both of which have been included in its composition to improve the properties of the welded joint. Flux coating is essential for arc stabilization, generation of shielding gas that prevents air contamination of the arc and molten metal, generation of slag that protects the weld metal, regulation of hydrogen content, refinement of the weld metal, the addition of necessary alloying elements according to the requirements of the welding application and the support in the arc ignition process. For example, manganese is added to the flux coating as a component that increases the toughness and strength of the weld metal; in addition, silicon is added as a deoxidizing element that interacts with the molten weld metal and forms oxide silica which removes oxygen from the weld metal. Both components improve the properties of the weld metal. When welding electrodes are given a metal powder as an additional ingredient, the resulting product is called metal powder electrodes. Powder metal electrodes can withstand higher welding currents. This results in greater metal deposition compared to an electrode without iron powder. The rate at which metal is deposited increases, but at the same time the arc force decreases, reducing bead penetration. By using metal powder electrodes, the metal deposition rate can be increased by up to 140%; However, the use of metal powder electrodes is only limited to the flat, horizontal and vertical welding positions. SMAW Electrode Groups: Due to the fact that the flux coating improves the qualities, and therefore the properties, of the weld metal. The SMAW electrodes are classified into three groups based on the type of flux coating they have; the three main groups are as follows: Basic, Rutile, and Cellulose. Welding properties are greatly influenced by certain metallic and non-metallic components present in any type of flux coating. Stick electrodes with rutile coating: About ninety percent of the rutile electrode coating consists of rutile constituents, the majority of which is titanium dioxide (TiO2); however, for carbon and carbon manganese steel rutile electrodes, this percentage is reduced to fifty percent. Rutile Electrode Types: Rutile electrodes are general-purpose electrodes that can be divided into groups based on the thickness of the electrode coating and the type of component mixture. The most common types are as follows:
- R-type electrodes have a thin coating applied to a large spherical transfer. Since these electrodes are good at bridging gaps, they are ideal for use in sheet metal welding.
- RC-type electrodes are designed for medium thickness welding and have good viscosity; these electrodes are suitable for vertical-down welding.
- The RR type is a thick coated, finely drooping transmission and results in high deposition and smooth welds produced by the electrode.
- RB species are characterized by their thick coatings, medium-sized coarse transfers, and high deposition efficiencies. These types of electrodes are superior to the RR types in terms of their ability to produce tough and strong welds. Pipeline construction, steel construction for gap filling, and root welding are common applications in which they are used.
Cellulosic-coated electrodes and rods: Approximately forty percent of the cellulosic electrode coating consists of combustible chemicals. Properties of cellulose electrodes:
- Stick electrodes coated with cellulose can be used well for vertical-down welding.
- Stick electrodes with cellulose coating cause a fast welding speed in connection with a high deposition rate.
- During the welding process, the coating on the cellulose electrodes breaks down, producing carbon monoxide, carbon dioxide, and hydrogen. These three gases act as shielding gas, insulating the molten metal from the heat.
Welding electrode applications
Any type of welding rod or electrode should be used according to its proper applications. Carbon arc welding (CAW) is the older and less common method in the welding industry. While still in use today, CAW is a process you rarely see in a welding shop or at home. Carbon electrodes produce a large arc that is more difficult to control than arcs from other processes. The giant arc is good for heating metals and cutting holes or channels in metal, but is not suitable for detailed welding of thin metal. Tungsten rods are the most known non-consumable electrodes and are used with tungsten inert gas or TIG welding machines. Tungsten electrodes are made from pure tungsten or a combination of thorium and tungsten, or zirconium plus tungsten. Pure tungsten electrodes are suitable for small jobs on thin metals that do not require high currents. Bare electrodes are not flux coated to protect the weld pool and are typically used for welding manganese steel. Rod electrodes are preferred by arc welders and are divided into three groups:
- Light coated electrodes
- Medium coated electrode
- Thick coated electrode or shielded arc electrode
- Light coated electrodes
Some applications for different welding rods: 6012 6012 is a general purpose welding wire with excellent shunt properties, especially when used with below-average settings. This electrode is also known to provide a good, stable arc and operate at high currents with minimal spatter. The best part is that it supports both AC and DC power supplies. In other words, the 6012 electrode has two major limitations. First, they are best suited for shallow or subtle penetration. Secondly, when they melt, thicker wastes are formed; therefore, they must be further cleaned after welding. Typical applications for this type of welding wire include open joint assembly, repair work, non-critical welds, and oxidized carbon steel plate welds. 6013 This is another popular electrode that gives a smooth arc with a little shard. Typically used for medium welds, 6013 has an easy to remove slag. It is also necessary to note that it is compatible with both AC and DC currents. This type of electrode is used where small or occasional welding jobs are required due to these properties. Because it creates a reasonably stable and smooth arc, it is ideal for applications requiring repositioning. These applications include sheet metal welding, ship repair and construction, and welding of recycled or mild steel surfaces. 6013 electrodes are also used for general and light construction. 7018 7018 is one of the largest general purpose welding rods and is mainly used for welding low and medium carbon steels. As we mentioned earlier, this electrode is designed to produce stronger welds that can withstand pressures up to 70,000 psi. Another important feature of 7018 welding wire is that it is usually coated with a low hydrogen iron compound. This composition evaporates and protects the weld from moisture and air pollution. This welding electrode can be used with both AC and DC power sources in all four positions. Thanks to these properties, 7018 has proven itself in structural welding. It means the type of welding needed in power plants, power plants, factories, and bridges. 7024 The main feature of this welding electrode is the high content of the iron powder. This is an important feature that greatly increases the deposition rate, making welding easier. 6010 6010 electrodes are very popular. They are used to provide deep penetration, a form of welding that requires high power densities of up to 1 MW per square centimeter. With this in mind, E6010 electrodes are mainly used for pipe welding and applications such as shipyards, water towers, steel mills, field construction, and steel storage tanks. However, it is important to note that they can only be used with welding machines that use direct current (DC). 6011 A feature of the 6011 electrodes is that they can operate on both alternating and direct currents. This is very convenient because you can easily switch from one stream type to another. The welding electrodes produced by our brand are genuine, made from high-quality materials, and come in commercial and professional packaging. Our quality welding wire is suitably coated and made from metals such as clay, sodium oxide, and lime. To buy the best specialized and quality welding wire, you can contact us through the production departments and official representatives of online markets.