Hard Metal Cutting Tools Manufacturer

Product Features:

1. High Hardness: The hard metal blade is composed of multiple materials and has a high hardness, capable of withstanding high-speed cutting and heavy load cutting processing.

2. Good Wear Resistance: The surface of the hard metal blade undergoes special treatment, possessing wear resistance, which can maintain the sharpness of the cutting edge for a long time and extend the service life of the blade.

3. Strong Corrosion Resistance: The hard metal blade has good corrosion resistance, maintaining stable performance in harsh working environments and being less susceptible to corrosion and oxidation.

4. High Temperature Stability: The hard metal blade has a high melting point and thermal stability, maintaining good cutting performance at high temperatures and not easily deforming or softening.

5. High Cutting Efficiency: The hard metal blade has cutting performance, enabling fast and efficient completion of cutting tasks, thereby improving production efficiency.

6. High Cutting Precision: The hard metal blade has a sharp cutting edge and good dimensional stability, enabling high-precision cutting processing and ensuring the quality and precision of workpieces.

7. Wide Application Range: The hard metal blade is suitable for cutting processing of various materials, including carbon steel, alloy steel, stainless steel, cast iron, non-ferrous metals, and their alloys.

8. High Customizability: According to different processing needs and material characteristics, hard metal blades with different materials and shapes can be customized to meet the requirements of different industries and processes.

Product Advantages:

1. Improve Cutting Efficiency: The high hardness and wear resistance of the hard metal blade allow for faster cutting speeds and lower cutting forces, thereby improving cutting efficiency and reducing processing time.

2. Extend Tool Life: The high wear resistance and corrosion resistance of the hard metal blade result in longer tool life, reducing the frequency of tool replacement and lowering production costs.

3. Improve Processing Precision: The sharp cutting edge and good dimensional stability of the hard metal blade enable high-precision cutting processing, ensuring the quality and precision of workpieces.

4. Reduce Cutting Costs: The high hardness and wear resistance of the hard metal blade result in longer tool life, reducing tool replacement and maintenance costs, thus lowering the overall cost of cutting processing.

5. Adapt to Complex Processing Environments: The high temperature stability and corrosion resistance of the hard metal blade enable tools to maintain stable performance in harsh working environments, adapting to complex processing conditions.

6. Improve Product Quality: The high-precision cutting capability of the hard metal blade ensures the quality and precision of workpieces, enhancing product competitiveness and market value.

7.Reduce Impact of Tool Wear on Workpieces: The high wear resistance of the hard metal blade reduces the impact of tool wear on workpieces, ensuring surface quality and dimensional accuracy of workpieces.

Product Application Range:
1. YT5: Suitable for rough turning, rough planing, semi-finish planing, non-continuous rough milling and drilling of uneven surfaces and intermittent cutting of carbon steel and alloy steel (including the surface layer of steel forgings, stampings and castings).
2. YW1: Processing of heat-resistant steel, high manganese steel, ordinary steel and cast iron.
3. YW4: Processing of stainless steel, and can also be used for processing ordinary alloy steel (excluding iron and nickel).
4. YW2: Semi-finish processing of heat-resistant steel, high manganese steel, ordinary steel and cast iron.
5. YG3: Suitable for precision turning, semi-precision turning, and small5. YG3: Suitable for precision turning, semi-precision turning, and small section precision turning of cast iron, non-ferrous metals and their alloys (rubber, fiber, plastic, slate, glass, and graphite electrodes) during continuous cutting. It is also suitable for thread turning and hole expanding, glass cutting, wet lubricated tensile drawing of steel and non-ferrous metals and their alloys wire materials, and drilling of non-metallic materials.
6.YG6X: Suitable for the processing of cold hardened cast iron, alloy cast iron, heat-resistant steel, and alloy steel. It is also suitable for fine machining of ordinary cast iron.
7.YG6: Suitable for precision turning, semi-precision turning, precision turning, small section precision turning, rough thread turning, cyclone threading, semi-precision milling and precision milling of continuous sections during continuous cutting of cast iron, non-ferrous metals and their alloys and non-metallic materials. It is also suitable for dry lubricated tensile drawing of steel and non-ferrous metals and their alloys wire materials, geological exploration, coal mining electric drills and pneumatic drill bits, and the manufacture of wear-prone parts of machines and tools.
8.YG8N: Hardened cast iron, ductile iron, white cast iron and8. YG8N: Hardened cast iron, ductile iron, white cast iron and precision machining of multiple metals.
9.YG8: Suitable for rough turning, rough planing, fine milling, general drilling and deep hole drilling in the processing of uneven sections and interrupted cutting of cast iron, non-ferrous metals and their alloys, as well as non-metallic materials. Stretching of rods and tubes made of steel, non-ferrous metals and their alloys, electric drill bits, coal cutting machine teeth, oil well drill bits, geological exploration bits, etc. Manufacturing of wear-resistant parts of machines and tools. Such as nozzles, tips, guide devices, upsetting rods, perforating tools, woodworking blades, etc.

In summary, hard alloy cutting blades have high hardness, goodIn summary, hard alloy cutting blades have high hardness, good wear resistance, strong corrosion resistance, high temperature stability, high cutting efficiency, and high cutting accuracy. They are suitable for cutting various materials. Their advantages include improving cutting efficiency, extending tool life, improving processing accuracy, reducing cutting costs, adapting to complex processing environments, improving product quality, and reducing the impact of tool wear on workpieces. Hard alloy cutting blades play an important role in industrial production and are one of the essential tools in modern manufacturing.