Grade 310 is a medium carbon austenitic stainless steel used in high-temperature applications such as furnace parts and heat treatment equipment. It can operate continuously at temperatures up to 1150 degrees Celsius and intermittently at 1035 degrees Celsius.
Grade 310/310S Stainless Steel Applications
Fluidized bed combustors, kilns, radiant tubes, petroleum refining tube hangers and steam boilers, internal components of coal gasifiers, lead pots, thermowells, refractory anchor bolts, burners and combustion chambers, retorts, muffles, annealing covers, saggers, food processing devices, cryogenic structures are all examples of Stainless Steel 310 Pipes applications.
Stainless steel sheets and plates offer a number of benefits that meet or surpass the application’s requirements. The main advantage of these stainless steel sheets and plates is their high resistance, which allows them to be used in harsh settings. SS sheets and plates are attractive and difficult objects because of their bright and easy-to-maintain surface. The strength of 310 stainless steel sheets is verified through a series of tests.
What are the features of Stainless Steel Grade 310 Pipes?
These grades have a chromium content of 25% and a nickel content of 20%, making them exceptionally corrosion and oxidation resistant. They are often utilized in mildly carburizing atmospheres in petrochemical settings.
For more severe carbonizing circumstances, other heat-resistant alloys should be used. Because of its hardness and low magnetic permeability, the grade is also employed in cryogenic applications.
These grades, like other austenitic stainless steels, cannot be toughened by heat treatment. They can be hardened by doing cold work, but this is rarely done.
What are the different types of stainless steel pipes in Grade 310?
Sheet and strip, plate, bar and rod, seamless tube and pipe, welded tube and pipe, forging and forging billets, tube and pipe fittings, and wire are some of the numerous types of SS 310 pipes. Grade 310/310S Corrosion Resistance is typically not utilized for corrosive liquid operations, despite grade 304’s higher corrosion resistance due to its high chromium and nickel content.
Chloride stress corrosion cracking can occur at temperatures reaching 100 degrees C in corrosive liquids containing chlorides.
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