Tungsten Carbide tips Description
The tungsten carbide inserts possesses a range of excellent properties, including high hardness, wear resistance, good strength and toughness, heat resistance, and corrosion resistance. Notably, its hardness and wear resistance remain nearly unchanged even at 500℃ and still retain a high level of hardness at 1000℃.
With excellent wear resistance, tungsten carbide tips maintain good cutting performance during long-term use, greatly reducing the frequency of tool replacement. Even if there is severe friction with the workpiece surface during cutting, the degree of wear is extremely small, saving companies a lot of tool procurement costs and replacement time costs.
Tungsten Carbide tips Show
Tungsten Carbide Tips Features
Cutting carbide tips are carefully designed with precise geometric shapes, such as reasonable edge angles, tool tip radius, etc. This allows the blade to cut into the workpiece more effectively during cutting, reducing fluctuations in cutting forces, and achieving a more stable and precise cutting process.
Tungsten Carbide tips Description
The tungsten carbide inserts possesses a range of excellent properties, including high hardness, wear resistance, good strength and toughness, heat resistance, and corrosion resistance. Notably, its hardness and wear resistance remain nearly unchanged even at 500℃ and still retain a high level of hardness at 1000℃.
With excellent wear resistance, tungsten carbide tips maintain good cutting performance during long-term use, greatly reducing the frequency of tool replacement. Even if there is severe friction with the workpiece surface during cutting, the degree of wear is extremely small, saving companies a lot of tool procurement costs and replacement time costs.
Tungsten Carbide tips Show
Tungsten Carbide Tips Features
Cutting carbide tips are carefully designed with precise geometric shapes, such as reasonable edge angles, tool tip radius, etc. This allows the blade to cut into the workpiece more effectively during cutting, reducing fluctuations in cutting forces, and achieving a more stable and precise cutting process.
