ASME SA268 TP410 1.4006 Stainless Steel Seamless Heat Exchange Tube

Overview:

TP410 seamless tube primarily consists of iron (Fe) as its base metal with the addition of chromium (Cr). It may also contain small amounts of other elements such as carbon (C), manganese (Mn), and silicon (Si). The specific composition of TP410 stainless steel may vary based on the alloy specifications and manufacturing standards.

They are capable of withstanding mild acids, alkalis, and some organic compounds. While not as corrosion-resistant as austenitic stainless steels, TP410 seamless tubes are suitable for applications in environments where moderate corrosion resistance is required.

They can withstand elevated temperatures without significant loss of mechanical properties. This makes them ideal for applications in high-temperature environments, such as heat exchangers, boilers, and process piping systems.

TP410 seamless tubes possess impressive mechanical properties. They exhibit high tensile strength, good hardness, and toughness. The alloy can be further strengthened and hardened through heat treatment processes to meet specific application requirements.

Specification:

Chemical Composition:

Mechanical Properties:

Applications:

1. Heat Exchangers and Boilers: TP410 tubes are widely used in heat exchangers and boilers, especially in high-temperature environments. Their high-temperature resistance and excellent strength make them suitable for transferring heat between fluids in industrial processes.
2. Petrochemical and Refinery Industry: TP410 tubes find application in the petrochemical and refinery industry for process piping, heat exchangers, and other equipment handling corrosive fluids at high temperatures. The moderate corrosion resistance and ability to withstand harsh environments make TP410 tubes suitable for such applications.
3. Power Generation: TP410 tubes are used in power generation facilities, including fossil fuel power plants and nuclear power plants. They can be found in applications such as steam condensers, superheaters, and reheaters, where they provide reliable performance in high-temperature and high-pressure conditions.
4. Chemical Processing: TP410 tubes are utilized in chemical processing plants for conveying corrosive chemicals, acids, and other aggressive media. Their moderate corrosion resistance combined with their high strength and weldability makes them suitable for various process piping and equipment.
5. Automotive Exhaust Systems: TP410 tubes are commonly employed in automotive exhaust systems due to their ability to withstand high temperatures and resist corrosion from exhaust gases. The tubes help to carry exhaust gases away from the engine while maintaining durability in challenging operating conditions.
6. Manufacturing and High-Temperature Processes: TP410 tubes are used in various manufacturing processes that involve high temperatures, such as annealing, quenching, and tempering operations. The tubes' high-temperature strength and resistance to oxidation make them suitable for these heat treatment applications.
7. General Industrial Applications: TP410 tubes may also find application in a wide range of general industrial processes that require resistance to high temperatures and moderate corrosion. Examples include furnace components, thermowells, and other high-temperature equipment.