Tungsten carbide nozzles stand as robust and versatile components that facilitate the precise control of fluids in a wide range of industrial applications. Their design intricacies, coupled with their material strength, make them indispensable tools in industries spanning manufacturing, cutting, coating, and beyond.
Features of Tungsten Carbide Nozzle:
1. 100% pure tungsten carbide material production, HIP sintering
2. Long service life, excellent performance, high cost performance
3. Up to 2300N/mm bending strength, up to HRA90 hardness
4. Excellent corrosion resistance and temperature resistance
5. Can be customized in terms of material, size, type, etc.
6. Can be customized according to drawings
Application of Tungsten Carbide Nozzle:
Abrasive Waterjet Cutting: These nozzles help direct a high-pressure stream of water mixed with abrasive particles onto materials like metal, stone, ceramics, and composites. The hardness and wear resistance of tungsten carbide ensure that the nozzle maintains its shape and performance even when exposed to the abrasive materials.
Spray Coating and Painting: In industries such as automotive and manufacturing, tungsten carbide nozzles are used in spray coating and painting applications. These nozzles provide precise and consistent dispersion of paints, coatings, and other liquids onto surfaces, ensuring even coverage and minimal overspray.
Metalworking and Die Casting: Tungsten carbide nozzles play a role in metalworking processes like die casting and extrusion. They direct molten metal or metal alloys into molds or onto surfaces, contributing to the precision and efficiency of the metal shaping process.
Oil and Gas Drilling: In the oil and gas industry, tungsten carbide nozzles are utilized in drilling equipment, including drill bits. These nozzles help in the circulation of drilling fluids and cutting debris, while their wear resistance is essential for drilling through various rock formations.
Aerospace and Aviation: Tungsten carbide nozzles are employed in aerospace applications, particularly in rocket engines and propulsion systems. They withstand high temperatures and pressures, aiding in the controlled release of propellant or other fluids in the harsh conditions of space travel.
Tungsten carbide material specification | |||||
Grade | Binder (Wt %)Cobalt | Density (g/cm3) | Hardness (HRA) | TRS (>N/mm²) | Grain Size(μm) |
YG6 | 5.8-6.3 | 14.6-15.0 | 89.5-91 | 1800 | 0.8-2.0 |
YG6X | 5.8-6.3 | 14.4-14.7 | 90.5-91.5 | 1650 | 0.6-1.0 |
YG8 | 7.5-8.2 | 14.4-14.7 | 89.0-90.5 | 2200 | 1.0-1.5 |
YG11 | 11.0-11.5 | 14.2-14.4 | 87.0-88.5 | 2800 | 1.0-2.0 |
YG11C | 11.0-11.5 | 14.2-14.4 | 86.0-88.0 | 3000 | 1.0-2.5 |
YG15 | 14.5-15 | 13.9-14.0 | 86.0-88.0 | 3300 | 1.0-2.0 |
YG20 | 20.0-20.5 | 13.2-13.5 | 84.0-85.0 | 3400 | 1.0-2.0 |
YG20C | 20.0-20.5 | 13.2-13.5 | 83.0-85.0 | 3600 | 1.0-2.5 |
K05VF | 4.5-5.0 | 14.6-15.0 | 92.5-93.0 | 1500 | 0.6-1.0 |
K10VF | 5.5-6.2 | 14.5-14.7 | 91.5-92.5 | 1550 | 0.6-1.0 |
K20VF | 7.5-8.0 | 14.5-14.7 | 90.5-91.5 | 1800 | 0.6-1.0 |
YN6 | 5.5-6.2 | 14.6-15.0 | 89.5-90.5 | 1800 | 0.8-2.0 |
YN6X | 5.9-6.5 | 14.5-14.9 | 89.4-91 | 1750 | 0.8-1.8 |
YN6A | 5.9-6.5 | 14.5-14.8 | 89.5-91.5 | 1850 | 0.8-1.8 |
YN7 | 6.8-7.2 | 14.4-14.8 | 89.0-90.0 | 1900 | 0.8-1.6 |
YN8 | 7.8-8.3 | 14.5-14.8 | 89.0-90.0 | 2200 | 0.8-2.0 |
YN12 | 11.5-12.2 | 14.0-14.4 | 87.5-88.5 | 2600 | 0.8-2.0 |
YN15 | 14.5-15.2 | 13.7-14.2 | 86.5-88.0 | 2800 | 0.6-1.5 |