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ESAB is a world leader in welding and cutting equipment and consumables. We offer a complete line of fabrication solutions for virtually every application.
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Welding is a fundamental process in the world of fabrication and construction, enabling the joining of metals with remarkable strength and durability. Two widely used methods, Electroslag Welding (ESW) and Submerged Arc Welding (SAW), have gained prominence for their efficiency and effectiveness. While both techniques serve similar purposes, they have distinct differences that make them suitable for specific applications. In this blog post, we will delve into the intricacies of Electroslag Welding and Submerged Arc Welding to understand their strengths and weaknesses.
Electroslag Welding is a welding process that involves the production of an electric arc between the filler metal and the base metal, creating the molten slag required for welding. The primary characteristic of ESW is its ability to weld thick base metals in a vertical position, making it ideal for joining heavy plates and sections, such as in shipbuilding, tank erection, and bridge construction.
The process begins with a consumable electrode being fed into the joint, initiating the electric arc, used only to start the process. As the arc heats up, the flux in the joint [which has very low resistivity] becomes molten, creating a pool of slag. This pool acts as a conductor, by the Joule Effect, and once the process is stabilized the arc is extinguished [arc-less process]. The filler metal gets fused and deposited through the melting pool, leading to a solid weld joint.
Submerged Arc Welding is a widely used welding process wherein an arc is generated between a continuously fed electrode and the workpiece. However, unlike Electroslag Welding, SAW operates with an electric arc beneath a layer of granular flux, which blankets the welding area. The flux serves multiple purposes, including shielding the arc, promoting metal transfer, and creating a protective slag layer over the weld bead.
SAW is commonly employed in the fabrication of pipes, pressure vessels, structural steel, and other applications where long, continuous high responsibility welds are required.
In summary, both Electroslag Welding (ESW) and Submerged Arc Welding (SAW) are valuable tools for an Industrial arsenal. Electroslag Welding is ideal for thick materials and vertical-up welding, while Submerged Arc Welding excels in producing high-quality continuous welds with greater responsibility and better mechanical properties. The choice between the two methods depends on project requirements, material thickness, and welding position. These "underwater sparks" illuminate the welding industry, empowering welders with efficient techniques to shape structures and join metals, defining our world.