ADI Heat Treatment

ADI Bearing Stator Tensile strength of 750 MPa elongation of 11% Advantages of ADI over Conventional Materials Good damping capacity, good wear resistance, high bending fatigue and contact fatigue strength (equivalent to low-alloy steel), light weight (10% lighter than steel) Application Military, petroleum, mining machinery, engineering machinery, wind power industry, and wear-resistant materials industries Compared to traditional ductile iron or steel, ADI offers the

ADI Bushing Tensile strength of 1200 MPa, elongation of 3% Advantages of ADI over Conventional Materials Compared to traditional ductile iron or steel, ADI offers the following advantages: Higher strength-to-weight ratio: ADI can have tensile strengths comparable to some steels but with lower density, making it suitable for lightweight applications. Improved fatigue resistance: The bainitic structure enhances the material's ability to resist cracking under cyclic loading.

ADI Sprocke Tensile strength of 1400 MPa, elongation of 2% The austempered ductile iron (ADI) is a type of ductile iron that has been heat-treated to improve its mechanical properties. The process involves two main steps: austenitizing and tempering. 1.Austenitizing: In this step, the ductile iron is heated to a high temperature to transform the ferrite and pearlite in the matrix into austenite. This is typically done at temperatures around 900°C to 950°C (1652°F to 1742°F).

ADI Trans -mission Shaft Tensile strength of 1200 MPa, elongation of 3%. Austempered ductile iron (ADI) is a revolutionary material that combines the benefits of ductile iron with the strength and toughness of steel. Its unique microstructure allows for improved mechanical properties, making it a versatile material for a wide range of industrial applications. Advantages of ADI 1.Compared to ductile iron and general steel, the strength is improved by 3 to 4 times. 2.Value

ADI Gearbox Housing Tensile strength of 750 MPa, elongation of 11% Austempered Ductile Iron (ADI) technology has become increasingly popular in various industries due to its unique combination of mechanical properties, including high strength, ductility, and wear resistance. This material is particularly suitable for applications requiring both high performance and cost-effectiveness. The following sectors are among the heavy users of ADI technology: Construction and Mining

ADI Pawl Tensile strength of 1050 MPa, elongation of 7%. Application of ADI Pawl Military, petroleum, mining machinery, engineering machinery, wind power industry, and wear-resistant materials industries Compared to traditional ductile iron or steel, ADI offers the following advantages: Higher strength-to-weight ratio: ADI can have tensile strengths comparable to some steels but with lower density, making it suitable for lightweight applications. Improved fatigue resistance:

ADI Bearing Stator Tensile strength of 750 MPa elongation of 11% Advantages of ADI over Conventional Materials Strength-to-Weight Ratio One of the most notable advantages of ADI castings is their exceptional strength-to-weight ratio. The density of ADI castings is about 10% less than that of steel, making them an excellent choice for applications where weight reduction is critical. This property makes ADI castings particularly suitable for use in transportation, aerospace,

ADI Shifter Rod Tensile strength of 1050 MPa, elongation of 7%. Austempered Ductile Iron Castings (ADI): An Overview Austempered Ductile Iron castings, commonly known as ADI castings, represent a significant advancement in the field of metallurgical engineering. These castings are produced through a specialized heat treatment process applied to ductile cast iron, with the addition of small quantities of nickel, copper, and molybdenum. These alloying elements play a crucial

ADI Spacer Tensile strength of 900 MPa, elongation of 9%. Advantages of ADI over Conventional Materials Good damping capacity, good wear resistance, high bending fatigue and contact fatigue strength (equivalent to low-alloy steel), light weight (10% lighter than steel) Application Military, petroleum, mining machinery, engineering machinery, wind power industry, and wear-resistant materials industries Compared to traditional ductile iron or steel, ADI offers the following

ADI End Plate Tensile strength of 900 MPa, elongation of 9%. Advantages of ADI End Plate: 1.Compared to ductile iron and general steel, the strength is improved by 3 to 4 times. 2.Value advantage of 20% to 30% compared to steel and aluminium.. 3.ADI is approximately 10% lighter than steel for parts of the same size. 4.ADI has an elastic modulus about 20% smaller than steel and is 40% better than steel in anti-vibration. It can withstand 20% higher vibration loads under the