Alloy 410S (UNS S41008) is a low carbon, a non-hardening variant of Alloy 410 (UNS S41000), the all-purpose martensitic stainless steel with 12% chromium. Due to the low carbon content and minimal alloy addition, austenite formation at high temperatures is minimised, which limits the alloy’s ability to harden. Even when quickly cooled from above the critical temperature, 410S maintains its soft and ductile characteristics. When the alloy is subjected to high temperatures or welded, this non-hardening property aids in preventing cracking. When 410S is annealed, it is entirely ferritic. It has acceptable corrosion resistance, comparable to that of 410, and good oxidation resistance.
High strength and equivalent strength are both offered by Stainless Steel 410s Plates, and they are also quite inexpensive. We also allow customers to customise the product’s specifications, sizes, and lengths. When placing an order for a product’s manufacture, clients can include their requirements or submit drawings for custom products.
For typical applications, the high strength, heat resistance, and good workability under corrosive conditions are provided by 410 stainless steel grade plates’ chromium content. The corrosion resistance it displays is excellent and good. It shares several of grade 410’s characteristics. Stainless steel 410S has a high level of oxidation resistance compared to SS 410.
It is simple to spin, roll shape, and bend stainless steel 410S plates. High-tech equipment is implemented to properly suit the needs of the clientele. Product design is carried out using computers.
Uses of Stainless Steel 410s Plates
It can be applied to refine petroleum.
It can be utilised to make petrochemical machinery.
It is suitable for thermal treatment procedures like those carried out in cement kilns or coke ovens.
In industrial applications with medium pressure and high temperatures, it can be utilised in valves if minor corrosion is tolerated.
It can be utilised as press plates to exert pressure on metal goods like wire or bars.
Heat transfers from one media to another can be accomplished using it.
It can be utilised in machinery for mining and processing minerals.
