Composition and Characteristics
The unique properties of 310S stainless steel are due to its carefully balanced composition. The typical chemical composition includes:
Chromium (Cr): 24-26%
Nickel (Ni): 19-22%
Carbon (C): 0.08% max
Manganese (Mn): 2% max
Silicon (Si): 1.5% max
Phosphorus (P): 0.045% max
Sulfur (S): 0.03% max
The high chromium and nickel content in 310S stainless steel enhances its resistance to oxidation and corrosion at elevated temperatures, while the lower carbon content minimizes the risk of carbide precipitation during welding. This combination of elements ensures that 310S stainless steel maintains its structural integrity and performance in the most demanding environments.
Key Properties
310S stainless steel coil offers several key properties that make it an exceptional material for high-temperature and corrosive applications:
Superior Oxidation Resistance: 310S stainless steel exhibits excellent resistance to oxidation at temperatures up to 2000°F (1093°C), making it ideal for use in environments that experience extreme heat.
High-Temperature Strength: The alloy maintains its strength and mechanical properties even at elevated temperatures, ensuring durability and reliability in high-stress applications.
Enhanced Weldability: The low carbon content of 310S stainless steel reduces the risk of carbide precipitation during welding, resulting in stronger, more reliable welds without compromising corrosion resistance.
Excellent Corrosion Resistance: In addition to its high-temperature performance, 310S stainless steel offers good resistance to a variety of corrosive environments, making it versatile for use in different industries.
Non-Magnetic in the Annealed Condition: Like other austenitic stainless steels, 310S is non-magnetic when annealed, which can be beneficial in specific applications where magnetism is a concern.
Applications of 310S Stainless Steel Coil
310S stainless steel coil is widely used across various industries, particularly in applications where high-temperature resistance and corrosion protection are critical. Some of the most common applications include:
Furnace Parts: 310S stainless steel is commonly used in furnace components, such as heat exchangers, combustion chambers, and radiant tubes, due to its ability to withstand high temperatures and thermal cycling.
Chemical Processing: The material’s resistance to oxidation and its strength at elevated temperatures make it ideal for chemical processing equipment, including reactors, kilns, and catalytic converters.
Power Generation: In power plants, 310S stainless steel is used in high-temperature applications such as boilers, superheater tubes, and heat exchangers, where consistent performance under extreme heat is essential.
Petrochemical Industry: 310S stainless steel is employed in refinery equipment, where it can resist high temperatures and corrosive conditions, making it suitable for components like reformer tubes and flue gas desulfurization units.
Automotive Industry: The material is used in the automotive sector for components exposed to high heat, such as exhaust manifolds and mufflers, where durability and oxidation resistance are critical.
Advantages of Choosing 310S Stainless Steel Coil
When selecting a material for high-temperature applications, 310S stainless steel coil offers several significant advantages:
Outstanding High-Temperature Performance: 310S stainless steel is designed to maintain its structural integrity and resist oxidation even at extreme temperatures, ensuring long-term reliability in challenging environments.
Versatility Across Applications: The alloy’s ability to perform well in both high-temperature and corrosive environments makes it suitable for a wide range of industries, from chemical processing to power generation.
Improved Weldability: The lower carbon content of 310S stainless steel reduces the risk of carbide precipitation during welding, making it easier to achieve high-quality welds without compromising corrosion resistance.
Durability and Longevity: The combination of strength, oxidation resistance, and corrosion resistance ensures that components made from 310S stainless steel have a long service life, reducing maintenance costs and downtime.
Conclusion
310S stainless steel coil is a top-tier material designed to excel in high-temperature and corrosive environments. Whether you are working on furnace components, chemical processing equipment, or automotive parts, 310S stainless steel offers the durability, strength, and resistance needed to ensure reliable performance under the most demanding conditions. Explore our range of 310S stainless steel coils today and find the perfect material for your high-temperature applications.
Common surfaces
Stainless Steel Standards Comparison Table
STS | USA | UNS | CHINA | EURONORM | RUSSIA | SWEDISH | JAPANESE | |
---|---|---|---|---|---|---|---|---|
GRADE | AISI/ASTM | NO | GB | NO | NAME | GOST | SS | JIS |
201 | 201 | S20100 | 12Cr17Mn6Ni5N | 1.4372 | - | - | - | SUS 201 |
301 | 301 | S30100 | 12Cr17Ni7 | 1.4310 | X 12 CrNi 17 7 | - | 2331 | SUS 301 |
303 | 303 | S30300 | 1Cr18Ni9MoZr | 1.4305 | X 10 CrNiS 18 9 | - | 2346 | SUS 303 |
304 | 304 | S30400 | 06Cr18Ni9 | 1.4301 | X 6 CrNi 18 10 | 08KH18N10 06KH18N11 |
2332 | SUS 304 |
304L | 304L | S30403 | 022Cr19Ni10 | 1.4307 | X 3 CrNi 18 10 | 03KH18N11 | 2352 | SUS 304L |
316 | 316 | S31600 | 0Cr17Ni12Mo2 | 1.4401 | X 6 CrNiMo 17 12 2 | - | 2347 | SUS 316 |
316L | 316L | S31603 | 022Cr17Ni12Mo2 | 1.4404 | X 3 CrNiMo 17 12 2 | - | 2348 | SUS 316L |
316Ti | 316Ti | S31635 | 0Cr18Ni12Mo2Ti | 1.4571 | X 6 CrNiMoTi 17 12 2 | 08KH17N13M2T 10KH17N13M2T |
2350 | - |
321 | 321 | S32100 | 0Cr18Ni11Ti | 1.4541/1.4878 | X 6 CrNiTi 18 10 | 12KH18N10T | 2337 | SUS 321 |
347 | 347 | S34709 | 0Cr18Ni11Nb | 1.4550 | X 6 CrNiNb 18 10 | - | 2338 | SUS 347 |
309S | 309S | S30908 | 0Cr23N13 | 1.4833 | X 6 CrNi 22 13 | 20KH23N18 | - | SUS 309S |
310S | 310S | S31008 | 06Cr25Ni20 | 1.4842 | X 6 CrNi 25 20 | 20KH25N20S2 | 2361 | SUS 310S |
416 | 416 | S41600 | Y1Cr13 | 1.4005 | X12CrS13 | - | 2380 | SUS 416 |
2205 | 2205 | S32205/S31803 | 00Cr22Ni5Mo3N | 1.4462 | X2CrNiMoN22-5-3 | 02Ch22N5AM2 | 2377 | SUS 329J3L |
2507 | 2507 | S32750 | 00Cr25Ni7Mo4N | 1.4410 | X 2 CrNiMoN 25-7-4 | - | - | - |
904L | 904L | N08904 | - | 1.4539 | - | - | - | - |
254SMO | 254SMO | S31254 | - | 1.4547 | X1CrNiMoCuN20-18-7 | - | 2378 | - |
253MA | 253MA | S30815 | - | 1.4835 | X9CrNiSiNCe21-11-2 | - | 2368 | - |
17-4PH/630 | 17-4PH/630 | S17400 | 0Cr17Ni4Cu4Nb | 1.4542 | X5CrNiCuNb16-4 | 05Ch16N4D2B | - | SUS630 |