The chemical composition of Austenitic Stainless Steel S30453 00Cr18Ni10N
Austenitic stainless steel S30453 00Cr18Ni10N is a member of the austenitic stainless steel family, characterized by its chemical composition. This alloy has a relatively low carbon content of 0.06-0.09 %, making it suitable for use in welding applications. It also has low susceptible to intergranular corrosion resulting from his 18 % chromium and 10 % nickel content.
The alloy has excellent corrosion resistance to a variety of corrosive media, such as chemical solutions, organic compounds, and aqueous sodium chloride solutions. Its resistance to chloride ion stress cracking makes it ideal for use in chemical plants, offshore applications, and any other application that involves exposure to high-chloride environments.
Other notable attributes of S30453 00Cr18Ni10N includes high weldability, formability, and ductility. Its excellent work hardening rate means that it can be machined, rolled, and formed without any external work hardening treatment. It also exhibits minimum yield strength and excellent weldability.
The properties of austenitic stainless steel S30453 00Cr18Ni10N allow it to be used in a variety of alloys. For example, it can be used in ferritic alloys, nickel alloys, and precipitation hardenable alloys. Additionally, it is often used as a filler metal in applications such as cladding and joining of dissimilar metals.
The chemical composition of S30453 00Cr18Ni10N, which is listed in Table 1, is important to consider when selecting suitable materials for a specific application. This table displays the percentage of each element contained in the alloy.
Table 1. Chemical Composition of S30453 00Cr18Ni10N Alloy
Element Percentage
Carbon 0.06%-0.09%
Chromium 18%
Nickel 10%
Manganese 2.0%
Silicon 1.0%
Molybdenum 0.45%
Phosphorus 0.045%
Sulfur 0.030%
In conclusion, austenitic stainless steel S30453 00Cr18Ni10N is a highly desirable material with a number of desirable attributes. Its low carbon content, excellent corrosion resistance, and good work hardening rate mean that it is suitable for a variety of applications. Additionally, its chemical composition, as displayed in Table 1, make it an attractive option for many machining, forming, and welding applications.
