[ad_1] The 40NiCrMo2 KB steel grade is a low alloy steel with a chemical composition of approximately 0.37-0.45% carbon, 1.60-1.90% nickel, 0.50-0.80% chromium, and 0.15-0.30% molybdenum. This composition provides the steel with a good combination of strength, toughness, and wear resistance. The mechanical properties of 40NiCrMo2 KB steel grade can be improved through heat treatment. […]
Tag Archives: Heat
[ad_1] – Mechanical Properties: 1. Tensile Strength: 40Mn4 steel grade typically has a tensile strength of 600-800 MPa, depending on the heat treatment process and the final microstructure of the material. 2. Yield Strength: The yield strength of 40Mn4 steel grade is around 420-600 MPa, again depending on the specific heat treatment process. 3. Hardness: […]
[ad_1] The 40Mn4 steel grade is a low alloy steel with the following chemical composition: – Carbon (C): 0.37-0.44% – Manganese (Mn): 1.00-1.30% – Silicon (Si): 0.17-0.37% – Phosphorus (P): max 0.035% – Sulfur (S): max 0.035% The impact resistance of 40Mn4 steel grade is relatively high due to its low alloy content and appropriate […]
[ad_1] The 403S17 steel grade is a martensitic stainless steel that is known for its high strength and hardness, as well as its good corrosion resistance. However, to fully optimize its properties, heat treatment is essential. One of the key reasons for heat treating 403S17 steel is to improve its mechanical properties. Through processes such […]
[ad_1] The 401S45 steel grade is a low carbon, martensitic stainless steel with a nominal composition of 0.45% carbon, 13% chromium, and 1% manganese. This composition provides the steel with good strength and corrosion resistance. The heat treatment process for enhancing the performance of 401S45 steel grade typically involves the following steps: 1. Annealing: The […]
[ad_1] The heat treatment process for 401S45 steel grade involves several steps to achieve the desired mechanical and technical properties. It is important to understand the chemical composition of the steel in order to determine the most effective heat treatment process. The chemical composition of 401S45 steel typically includes elements such as carbon, manganese, silicon, […]
[ad_1] The 39CrMoV13-9 steel grade is a high-alloy and high-strength steel that is commonly used in applications where high mechanical performance and resistance to wear and tear are required. Heat treatment plays a crucial role in enhancing the performance of this steel grade by improving its mechanical and technical properties. One of the key advantages […]
[ad_1] The 39CrMoV13 9 steel grade is known for its high strength, toughness, and wear resistance, making it suitable for applications in industries such as aerospace, automotive, and machinery. To further enhance its performance and longevity, heat treatment processes can be employed to optimize its mechanical and technical properties. Mechanical properties: – High tensile strength: […]
[ad_1] Mechanical Properties: 1. Improved toughness and ductility 2. Increased strength and hardness 3. Enhanced wear resistance 4. Better machinability Technical Properties: 1. Improved dimensional stability 2. Enhanced surface finish 3. Reduced internal stresses 4. Better formability Chemical Composition: The chemical composition of 36NiCr6 steel grade typically includes: 1. Carbon (C) – 0.32-0.39% 2. Silicon […]
[ad_1] The 36NiCr6 steel grade is a low-alloy steel with nickel and chromium as the main alloying elements, and it is commonly used in applications requiring high strength and toughness. The heat treatment process is used to enhance the mechanical and technical properties of this steel grade. The mechanical properties of 36NiCr6 steel can be […]