Chemical Composition of Austenitic Stainless Steel S30110 1Cr17Ni7
Austenitic stainless steels are some of the most common and widely used alloys in the world. Among them, the S30110 1Cr17Ni7 stainless steel is an austenitic grade with high corrosion resistance, high mechanical properties, and a wide range of applications. As one of leading suppliers of stainless steel products in the industry, we are offering the following information regarding the chemical composition of S30110 1Cr17Ni7 stainless steel.
The following chemical elements are found in S30110 1Cr17Ni7 stainless steel: iron (Fe), chromium (Cr), nickel (Ni), carbon (C) and manganese (Mn).
The iron content is typically above 70%, ranging from 71.02% to 74.35%.
Chromium is present in S30110 1Cr17Ni7 stainless steel in a range of 16.87% to 20.52%. Chromium provides the stainless steel with its corrosion resistance properties.
Nickel content in S30110 1Cr17Ni7 stainless steel ranges from 4.70% to 7.36%. It increases corrosion resistance as well as toughness, and enhances the toughness at elevated temperatures.
The carbon content of this stainless steel is usually 0.08% and 0.12%. The presence of carbon gives the steel an additional strength and improves its hardenability.
Manganese is present in S30110 1Cr17Ni7 stainless steel in a range of 0.25% to 0.50%. It increases the mechanical properties of the steel, improves its hardenability and grain size. It also helps to prevent cracking and increase weldability.
To summarise, S30110 1Cr17Ni7 is a type of austenitic stainless steel that contains iron, chromium, nickel, carbon, and manganese. It exhibits excellent corrosion resistance, mechanical properties and has a wide range of applications. It is composed of iron between 71.02% and 74.35%, chromium between 16.87% and 20.52%, nickel between 4.70% and 7.36%, carbon between 0.08% and 0.12%, and manganese between 0.25% and 0.50%.
S30110 1Cr17Ni7 stainless steel is usually used for applications that need better corrosion resistance. It is also ideal for making cookware, cutlery, fasteners, medical equipment, as well as other parts exposed to high levels of salt water or chlorine and other chemical agents. Additionally, it is commonly used in various heat exchangers and air coolers because it is resistant to chloride-induced stress corrosion cracking. Its moderate heat range makes it effective for a variety of industrial applications, such as the aerospace and automotive industries.