CR17Ni12Mo2N stainless steel: Outstanding performance for multi-field applications.
0CR17Ni12MO2N is a unique stainless steel based on 316 type stainless steel, which achieves strength improvement and austenitic structure stabilization by introducing nitrogen. Its unique ingredient design and superior performance make it stand out in a wide range of applications.
The best balance between ingredient content and performance.
The chemical composition of 0Cr17Ni12Mo2N reveals the secret of its superior performance. The carbon (c) content is 008, silicon (Si) is 100, manganese (mn) is 200, phosphorus (p) is 0045, sulfur (s) is 0030, chromium (CR) is 16 18. On this basis, the ingenious combination of nickel (Ni), molybdenum (Mo) and nitrogen (N) makes 0Cr17Ni12Mo2N not only maintain the stability of the austenite structure, but also improve the strength. The introduction of nitrogen not only helps to increase strength, but also allows the material to be thinned when used, demonstrating the best balance between composition and performance.
Wide coverage of application areas.
With its excellent performance, 0CR17Ni12Mo2N is widely used in many fields. It is ideal in scenarios that require high strength and corrosion resistance. Among them, as a material for the manufacture of screw rods, 0Cr17Ni12Mo2N can withstand high-strength tensile forces and maintain stability in corrosive environments. It is also particularly prominent in demanding areas such as motor shafts and nuclear power plants. The versatility of 0Cr17Ni12Mo2N makes it useful in devices that require high corrosion resistance and require high-strength materials.
The relationship between ingredient design and performance benefits.
The composition design of 0Cr17Ni12Mo2N directly determines its performance advantages in applications. The high strength takes into account the stability of the austenite structure, making it not easy to fail in corrosive environments. The nitrogen element in the composition is the key to its performance improvement, adding new properties to stainless steel. This unique ingredient design has made 0Cr17Ni12Mo2N widely recognized in the engineering field.
The need for process control and optimization.
In the production process of 0Cr17Ni12Mo2N, the control of heating temperature is crucial. The recommended heating temperature range is 1000 to 1150, and a reasonable cooling method can prevent carbide re-precipitation and maintain the uniformity of the material. In the rapid cooling process after solid melting, the heating temperature needs to be adjusted appropriately for workpieces of different compositions and shapes to ensure optimal performance.
In summary, as a high-performance stainless steel, 0Cr17Ni12Mo2N provides a solid foundation for multi-field applications due to its composition design and performance performance. In the future, we are expected to see more innovative applications based on this material, bringing more possibilities for industrial manufacturing.