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Views: 1 Author: Site Editor Publish Time: 2025-02-24 Origin: Site
Stainless steels 310S are known as high-alloy steels. They are classified into ferritic, austenitic, and martensitic steels based on their crystalline structure. Grade 310S stainless steel is superior than other stainless steel in most environments, because it has high nickel and chromium content. It has high corrosion resistance and strength in temperatures up to 1149°C (2100°F). The following datasheet gives more details about grade 310S stainless steel. Type 310S is a high temperature chromium nickel austenitic stainless steel with high creep strength that resists oxidation at temperatures up to 2000˚F in dry air. Since 310S presents austenitic structure under room temperature, therefore it cannot be hardened through heat treatment. Cold working can give it enhanced tensile strength and yield strength. Cold working must be followed by annealing, or the steel properties will be unstable. However, alloy 310S is made for high temperature work, if done with cold working, its creep resistance will decrease on the contrary under high temperature.
Grade 310S stainless steel (1.4845) is one of the most widely used grades of heat resistant stainless steel supplied into numerous industry sectors. Grade 310S stainless steel (1.4845) is one of the most widely used grades of heat resistant stainless steel supplied into numerous industry sectors. The key properties of this material are its high chromium and medium nickel content making its resistance to oxidation, sulfidation and other forms of hot corrosion its main characteristics. Whilst retaining good strength when exposed to high temperatures, like most austenitic grades this grade will also maintain its strength and toughness at sub-zero temperatures. Overall this grade is an excellent choice for various applications ranging from furnace components to burner tips. 310S has a maximum dry air service temperature of 1100ºC.
Stainless Steel 310S Pipe is made up of a low carbon austenitic stainless steel material used in high temperature applications. JN Alloy is one of the renowned manufacturer, exporter, stockist, stock holder and supplier of a qualitative range of Stainless Steel 310 Seamless Pipes that are being designed as per the national and international standard quality of raw materials. The most widely used of the heat resisting, Stainless Steel 310S Pipes offers superlative decomposition discrepancy to a great deal of chemical corrodents and industrial environment. Meanwhile, our Cold Drawn 310S Pipes have an amazingly enhanced formability and can be welded in the course of excellent grace by all standard means.
The Stainless Steel 310S Seamless Pipe and the SS 310S Welded Pipe are used alike except for the welded pipes have high absolute roughness and are preferred for mostly mechanical applications. The ASTM A312 TP 310S ERW Pipe is used to produce pipes of diameters up to 24 inches where the EFW pipes can be produced up to 100 inches, but the diameters depend on the standards. The ASME SA 312 Grade 310S Square Pipe is used alike the hexagonal pipes for structural strength and the UNS S31008 schedule 40 pipe is the mostly used thickness of the pipe. The DIN 1.4845 AISI 310S Stainless Steel Pipe types are available with us. To meet the quality conscious needs for our highly esteemed clients, we offer 310S Pipes in different sizes, thickness and standards as per made to order requirements given by our customers.
Dimensions | ASTM, ASME and API |
Standard | ASTM A312 / ASME SA312 |
Size | 1/8″NB TO 30″NB IN |
Specialized in | Large Diameter Size |
Schedule | SCH20, SCH30, SCH40, STD, SCH80, XS, SCH60, SCH80, SCH120, SCH140, SCH160, XXS |
Form | Round, Square, Rectangular, Hydraulic Etc |
Type | Seamless / ERW / Welded / Fabricated / LSAW Pipes |
Length | Single Random, Double Random & Cut Length. |
End | Plain End, Beveled End, Threaded |
In the oil and gas industry, Stainless Steel 310S pipes are essential for their durability in extreme conditions. Pipelines, refineries, and offshore platforms rely on these pipes to transport oil and gas efficiently, even in highly corrosive environments. Their resistance to oxidation and sulfur-containing atmospheres ensures reliable performance in critical systems such as flaring systems, heat exchangers, and catalytic reformers. For subsea operations, where exposure to high chloride concentrations is common, these pipes offer unmatched corrosion resistance, making them indispensable in coastal and offshore applications.
Stainless Steel 310S pipes play a vital role in the chemical and petrochemical industry by withstanding harsh operating conditions. They are commonly used in reactors, distillation columns, and heat exchangers. These pipes excel in environments where exposure to aggressive chemicals, such as acids and alkalis, is routine. For example, in catalytic converters and gas scrubbers, they maintain structural integrity under extreme heat and corrosive agents. Their ability to endure high pressures and temperatures ensures smooth operations in critical manufacturing processes.
The power generation sector depends on Stainless Steel 310S pipes for their exceptional high-temperature strength and corrosion resistance. Boilers, superheater tubes, and turbine components often operate under immense thermal stress, and these pipes deliver consistent performance in such demanding conditions. Additionally, in nuclear power plants, Stainless Steel 310S pipes are integral to heat exchangers and steam generators, where their resistance to radiation-induced damage is crucial. Their reliability extends to flue gas desulfurization systems, where they handle acidic and abrasive environments while maintaining efficiency.
Known for their resilience, Stainless Steel 310S pipes excel in high-temperature applications, making them a cornerstone of the heat treatment and furnace industry. Radiant tubes, muffle tubes, and burner components are just a few examples of their widespread use. These pipes can endure continuous exposure to temperatures up to 2100°F (1149°C) without succumbing to oxidation or scaling. Furthermore, they perform exceptionally well in thermal cycling—repeated heating and cooling cycles—making them ideal for kilns, fluidized bed combustors, and other industrial furnaces.
Stainless Steel 310S pipes are invaluable in the food processing industry, where hygiene, durability, and heat tolerance are paramount. They are widely used in industrial ovens for baking, pasteurizers for dairy processing, and heat exchangers for sterilization. Their smooth surface facilitates easy cleaning, ensuring compliance with strict food safety standards. Additionally, their resistance to acids and cleaning agents enhances their longevity, making them a cost-effective solution for food manufacturing and storage systems.
In water treatment and desalination plants, Stainless Steel 310S pipes are the preferred choice for handling highly saline and corrosive environments. These pipes are used in seawater intake systems, brine heaters, and evaporators, where their resistance to pitting and crevice corrosion ensures long-term reliability. Whether in municipal water systems or industrial desalination projects, Stainless Steel 310S pipes contribute to efficient and durable operations, even under the most challenging conditions.
The pulp and paper industry benefits significantly from the robust properties of Stainless Steel 310S pipes. These pipes are employed in chemical recovery boilers, digesters, and bleaching systems, where they withstand corrosive chemicals and high temperatures. Their ability to resist chloride-induced corrosion ensures uninterrupted operations in processes that are both chemically aggressive and thermally demanding. By maintaining system efficiency, these pipes help reduce downtime and operational costs in paper manufacturing.
In summary, Stainless Steel 310S pipes are a cornerstone of modern industry, offering unmatched durability, corrosion resistance, and heat tolerance. From energy production and chemical processing to food manufacturing and water treatment, these pipes ensure reliable performance in the most demanding environments. Their versatility and resilience make them an indispensable asset, driving efficiency and innovation across a wide range of applications.
