Custom carbide strips are suitable for many complex machining environments due to their high hardness, wear resistance and precise manufacturing processes.
Product Features
- High hardness: The hardness of the carbide strips is much higher than ordinary steel, which can easily cut all kinds of hard materials.
- Excellent abrasion resistance: Carbide strips can remain sharp during long time use, reducing the frequency of replacement.
- Good thermal stability: The performance can still be maintained under high temperature environment, suitable for high-speed cutting.
Customized Services
We offer comprehensive customization services, including:
- Size customization: Carbide strips are available in different lengths, widths and thicknesses according to customer requirements.
- Shape customization: In addition to standard rectangles, special shapes can also be customized.
- Material customization: Different grades of carbide materials are selected according to the usage environment and requirements.
Common Used Grades
Grade | International
Standards |
Density
(g/cm3) |
Hardness
(HRA) |
Bending Strength
(MPa) |
Scope of Application |
YG8 |
K30 | 14.8 | 89.5 |
≥3500 |
High strength, impact resistance and shock resistance, better than YG6. Suitable for making forming knives and wear-resistant parts. |
YG11 |
K40 | 14.4 | 88.5 |
≥3650 |
Suitable for making stamping molds. |
NT15 |
K40 | 14.0 | 87.5 |
≥3800 |
Suitable for making stamping dies (processing silicon steel sheets), wear-resistant parts, etc. |
YG20 |
K30 | 13.5 | 85.5 |
≥4200 |
High strength, suitable for making progressive dies and other stamping dies. |
YG6X |
K10 | 14.9 | 91.5 |
≥3200 |
Fine-grained alloy with good wear resistance and is suitable for making forming knives and wear-resistant parts. |
YL10.2 |
K10 | 14.5 | 92 |
≥3850 |
Ultra-fine grain alloy with high wear resistance, bending strength, anti-adhesion ability and pad strength. It is suitable for low-speed rough machining. |
Other grades are available on request |
Avaliações
Ainda não existem avaliações.