What are Stainless Steel 310 Tubes?
As a result of their chromium and nickel content, Stainless Steel 310 Tubes are utilized in various applications. These elements work well together because they offer superior corrosion and oxidation resistance, making them a good choice for different cryogenic and high-temperature systems. Many applications, including air conditioning, refrigeration, gas turbines, furnace parts, oil burner parts, and plumbing, call for the use of SS 310 tubes. One of the most popular types of stainless steel, it is also simple to work with and resistant to corrosion and rust.
SS 310 Tubes have good ductility and weldability and are suitable for thermal cycling applications. It possesses excellent oxidation resistance, making it suitable for various environments, especially those with an oxidizing atmosphere. It is also resistant to cyaniding salts and drawing salts.
Applications of Stainless Steel 310 Tubes
Equipment for chemical processing that involves high temperatures frequently uses these products. It is thermally efficient between 100 and 500 degrees Celsius. This product is typically used in the chemical and water handling sectors.
Radiant tubes, fluidized bed combustors, burners, kilns, and other devices all frequently employ Stainless Steel 310S Tubes. Equipment and machinery used in food preparation can also benefit from it. It is suitable for cryogenic and refractory applications due to its low melting point.
Features of Stainless Steel 310 Tubes
Grade 310 is a medium carbon alloy formed by alloying nickel and chromium. Alloy 310 is readily welded by most standard processes and can be annealed. However, cold working and annealing can increase its tensile strength and yield strength and make it susceptible to sigma phase precipitation.
Stainless Steel 310H Tubes are high-temperature steel known for their oxidation resistance. The material is a good choice for heat-resistant environments. The sigma phase precipitation in this alloy is similar to that of 304 stainless steel. Alloy 310 is readily welded by PLASMA and TIG welding.