Forging Pressure Mould Tool Steel
Fushun are main manufacturer of tool steel for Forging Pressure Mould.
What is Forging Pressure Mould?
Forging pressure moulds are heavy-duty tooling systems designed for shaping metal through intense pressure and controlled deformation. These moulds consist of robust upper and lower sections, precisely engineered cavities, and integrated guidance systems to ensure accurate alignment during the forging process. The design incorporates features to manage material flow, handle high impact loads, and maintain dimensional stability under extreme pressures.
The main function of forging pressure moulds is to transform raw material into finished components through controlled compression and forming. They are widely used in manufacturing industries to produce critical components like automotive parts, industrial equipment components, and structural elements. This process offers advantages including improved material strength through grain refinement, enhanced mechanical properties, and the ability to create complex geometries. Forging pressure moulds can handle various materials and part sizes while ensuring consistent quality in high-volume production.
The mould materials used in forging pressure applications require specific alloying elements to withstand severe working conditions. Premium grade tool steels are employed, containing balanced combinations of chromium, tungsten, molybdenum, and vanadium to achieve optimal performance characteristics. These materials provide exceptional hot strength, wear resistance, and toughness needed for extended service life. The microstructure features carefully controlled carbide distributions that ensure excellent thermal stability and resistance to deformation under high pressures. Advanced surface treatments and heat treatment processes are often applied to enhance durability and maintain dimensional accuracy during prolonged production runs.
Forging Pressure Mould Materials
| — | 4Cr2NiMoV | |
| — | 5Cr2NiMoVSi | |
| H10 | 1.2365 | 4Cr3Mo3SiV |
| — | 3Cr3Mo3W2V | |
| Ni53Cr19Mo3TiNb |
Chemical Composition of Forging Pressure Mould
| Grade | C | Si | Mn | Cr | W | Mo | Ni | V |
| 4Cr2NiMoV | 0.35~0.45 | ≤0.40 | ≤0.40 | 1.80~2.20 | 0.45~0.60 | 1.10~1.50 | 0.10~0.30 | |
| 5Cr2NiMoVSi | 0.46~0.54 | 0.50~0.90 | 0.40~0.60 | 1.50~2.00 | 0.80~1.20 | 0.80~1.20 | 0.30~0.50 | |
| 4Cr3Mo3SiV | 0.35~0.45 | 0.80~1.20 | 0.25~0.70 | 3.00~3.75 | 2.00~3.00 | 0.25~0.75 | ||
| 3Cr3Mo3W2V | 0.32~0.42 | 0.60~0.90 | ≤0.65 | 2.80~3.30 | 1.20~1.80 | 2.50~3.00 | 0.80~1.20 | |
| Ni53Cr19Mo3TiNb | ≤0.08 | ≤0.35 | ≤0.35 | 17.00~21.00 | 2.80~3.30 | 50.00~55.00 |
Properties of Forging Pressure Mould Steel
| Grade | Annealed HBW |
| 4Cr2NiMoV | ≤220 |
| 5Cr2NiMoVSi | ≤255 |
| 4Cr3Mo3SiV | ≤229 |
| 3Cr3Mo3W2V | ≤255 |
| Ni53Cr19Mo3TiNb | ≤300 |
Available Shapes from Fushun
*Round Bar
*Flat Bar
*Block
*Plate
Contact Information
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