carbide tip turning tools cutter
In the field of mechanical processing, tungsten tipped lathe tools, carbide cutters and carbide tip turning cutter have become the preferred tools for modern precision processing due to their excellent wear resistance, high temperature resistance and long life.
1. Why choose cemented carbide cutter?
The hardness of cemented carbide (tungsten carbide-based composite material) can reach HRA 90 or above, which is 2-3 times that of high-speed steel, and can maintain performance at high temperatures of 800-1000℃. This means:
Improved processing efficiency: support higher cutting speeds
Significantly reduced costs: blade life extended 3-5 times
Stable processing quality: reduced tool change downtime
2. List of compatible materials for carbide cutters
Stainless steel series (304/316/420, etc.)
Alloy steel and tool steel (45# steel, H13 mold steel, etc.)
Cast iron (gray cast iron, ductile iron)
3. What technical support do we provide for carbide cutters?
According to the characteristics of different materials, we provide the following technical guarantees:
1. Free sample service: provide 5 blades suitable for cutting
2. Cutting parameter database: input material grade to automatically generate processing plan
We provide detailed information about the technical parameters of our carbide cutters. This includes specifications like the cutter’s diameter, the number of teeth, the material composition of the carbide (as different carbide grades have different wear – resistance and cutting performance characteristics), and the recommended cutting speeds and feeds for optimal performance.
For instance, a high – speed carbide cutter might have a different set of optimal cutting conditions compared to a standard – duty one.
3. Customized coating: optimize coating composition for special materials.
Each material provided by Puwei Cemented Carbide Cutting Tool Company is described in detail with usage scenarios and advantages. At the same time, it emphasizes the advantages of cemented carbide, such as wear resistance, high temperature resistance, and suitability for high-intensity processing.
