![]() ![]() ![]() Seamless piping begins as a solid cylindrical hunk of steel called a billet. Most welded pipe types require heat treatment after manufacture. Weld seams produced from low-frequency ERW were more prone to corrosion and seam failure. Prior to the 1970s, low-frequency current was used. Perhaps the most important advancement has been the switch to high-frequency electric currents for welding. Welded pipe manufacturing techniques have improved over the years. That’s opposed to double submerged arc welding (DSAW), which leaves behind an obvious weld bead that must then be eliminated depending on the application. In the ERW process, high-frequency electrical current is passed between the edges, causing them to melt and fuse together.Īn advantage of ERW pipe is that no fusion metals are used and the weld seam cannot be seen or felt. The rectangular sheets are fed through a rolling machine that curls the longer sides up toward one another, forming a cylinder. ![]() The width of that sheet’s shorter ends will become the pipe’s outside circumference, a value that can be used to calculate its eventual outside diameter. The skelp is cut to the desired length, resulting in a flat rectangular sheet. Welded pipe starts out as a long, coiled ribbon of steel called a skelp. So which is better? Manufacturing welded pipe seamless (SMLS) steel pipe.īoth ERW and seamless steel pipe manufacturing methods have been in use for decades over time, the methods used to produce each have advanced. While many pipe manufacturing methods exist, the most prominent discussion in the industry compares electric resistance welded (ERW) vs. As industrial applications have evolved and grown more complex, the piping products and systems that serve them have had to keep pace. ![]()
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