Place of Origin: | China |
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Brand Name: | OEM |
Certification: | CE 、LR 、KR |
Model Number: | OEM |
Minimum Order Quantity: | Negotiation |
Price: | Negotiation |
Packaging Details: | Wooden Box |
Delivery Time: | base on order |
Payment Terms: | L/C, D/A, D/P, T/T, Western Union, MoneyGram |
Supply Ability: | 10,000 tons per year |
Technology: | ADI | Brand Name: | ADI Bushing |
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Certificate: | CCS 、DNV、LR 、BV | Casting Capacity: | 10,000 Tons Year |
Tensile Strength: | 1200MPA | Elongation: | 3% |
Advantages: | Adi Integrated Factory | Grade: | 1000 Series, AA |
High Light: | 1200 MPa ADI Bushing,ADI Heat Treatment Bushing,3% elongation ADI Bushing |
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.
Better wear resistance: The graphite nodules act as solid lubricants, reducing friction and wear.
Enhanced impact toughness: The presence of retained austenite increases the material's energy absorption capacity.
Good machinability: Despite its high strength, ADI can be machined more easily than some other high-strength materials.
Applications of ADI
Due to its unique properties, ADI has found applications in various industries, including:
Automotive: For gears, crankshafts, connecting rods, and other components where high strength and durability are required.
Heavy equipment: In mining and construction machinery where components are subjected to heavy loads and impact.
Energy sector: In wind turbine components and other applications where lightweight and high strength are advantageous.
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. By understanding the processing techniques and scientific basis behind ADI, engineers can leverage its potential to design more efficient and durable components.