D3 High Carbon Chromium Flats in Ahmedabad
D3 High Carbon Chromium Flats Manufacturer And Supplier in Ahmedabad, Gujarat
Usha Metal Industries Private Limited is a leading manufacturer and supplier of D3 High Carbon Chromium Flats in Ahmedabad. These flats are specifically designed to deliver excellent strength, wear resistance, and hardness for various industrial applications. Ideal for tooling, molds, and dies, D3 High Carbon Chromium Flats offer superior performance, ensuring long-lasting reliability under extreme conditions. Usha Metal Industries focuses on high-quality standards and precision, providing customized solutions to meet the specific needs of industries in Ahmedabad. Choose Usha Metal Industries for durable and high-performance D3 High Carbon Chromium Flats that excel in demanding environments.
Technical specification of D3 High Carbon Chromium Flats
Property | Specification |
---|---|
Material | D3 High Carbon Chromium Steel |
Grade | D3 |
Standard | ASTM, DIN, JIS (Customer-Specific) |
Shape | Flat Bar |
Thickness | 10mm – 300mm (Custom sizes available) |
Width | 50mm – 400mm (Custom sizes available) |
Length | 1000mm – 6000mm (Custom lengths available) |
Hardness | 58–62 HRC (After Heat Treatment) |
Tensile Strength | 1700 MPa |
Yield Strength | 1200 MPa |
Elongation | 12–14% |
Density | 7.85 g/cm³ |
Heat Treatment | Quenching and Tempering (Customized) |
Surface Finish | Polished, Smooth, or as per customer requirement |
Applications | Tooling, Dies, Molds, High-Strength Components, Industrial Machinery |
Features of D3 High Carbon Chromium Flats
- D3 High Carbon Chromium Flats are designed to perform in high-pressure and high-temperature environments.
- The material offers exceptional dimensional stability, even under heavy mechanical loads.
- With excellent resistance to thermal fatigue, these flats retain their integrity in extreme conditions.
- D3 Flats are highly effective in reducing wear and tear in industrial machinery, extending service life.
- The high carbon content enhances hardness, making them resistant to deformation and surface damage.