Title: 0Cr18Ni6Mo5 corrosion resistance parameters in detail, chemical composition and summary of application fields.
1. Introduction 0Cr18Ni6Mo5 is a common austenitic stainless steel with excellent corrosion resistance. It is based on 304 stainless steel with the addition of molybdenum (MO) elements, which makes it perform well in various corrosive environments.
Second, the chemical composition.
Main Ingredients: Carbon(C) 008%, chromium (cr) 175%~18.5%, nickel (Ni) 55%~7.5%, molybdenum (Mo) 5%.
Other components: silicon (Si) 1%, sulfur (s) 003%, iron (Fe) margin.
3. Corrosion resistance.
0Cr18Ni6Mo5 has excellent corrosion resistance and can perform well in various corrosive environments. Its corrosion resistance** is due to its stable chemical properties and unique crystal structure, which can resist the erosion of corrosive media such as chloride ions, oxidizing acids, alkalis and salts.
Fourth, the field of application.
1.Chemical industry: widely used in various chemical equipment, such as reactors, pipelines, valves, etc.
2.Oil & Gas Industry: Used to process media containing sulphur and chlorine, such as pipelines, heat exchangers and filters.
3.Offshore engineering: Due to its excellent corrosion resistance, it is commonly used in various types of equipment and structures in marine engineering.
4.Food industry: It can be used to produce equipment that comes into contact with food, such as parts and components of food processing equipment.
5.Pulp and paper industry: In the pulp and paper industry, equipment and components that can be used to process solutions containing acidic substances.
5. Summary. 0Cr18Ni6Mo5 is an excellent corrosion-resistant stainless steel with excellent corrosion resistance and stable chemical properties, suitable for various corrosion environments. It has a wide range of applications in the chemical, oil and gas, marine, food and pulp and paper industries. Knowing its chemical composition and corrosion resistance parameters can help to select and use the material more efficiently.