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CNMG120404-BM NP515
SHITAEGER
NEK-CN05
Turning Insert
Automobile, machine tool, aviation, mould
10pcs/box
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1, material
The material of the blade is mainly as follows:
1. ** cemented carbide ** : also known as tungsten titanium alloy, with high hardness and wear resistance, is a commonly used material in turning processing.
2. ** High speed steel ** : with good toughness and heat resistance, suitable for some processing scenarios that need to withstand greater impact.
3. ** Ceramic ** : can maintain good hardness and wear resistance at high temperatures, suitable for high-speed cutting and processing high hardness materials.
4. ** Cubic boron nitride (CBN) ** : has very high hardness and wear resistance, especially suitable for processing high hardness materials, such as hardened steel, chilled cast iron and so on.
2, characteristics
1. High precision ** : The lathe blade can carry out high-speed, efficient and high-precision metal processing to ensure the dimensional accuracy and surface quality of the workpiece.
2. High wear resistance ** : Due to the use of high hardness material, the blade can be kept sharp for a long time, reducing the need for frequent blade replacement.
3. ** Smooth chip discharge ** : The design of the blade usually takes into account the problem of chip discharge to ensure that the chip can be smoothly discharged to avoid accumulation and blockage.
4. ** High positioning accuracy ** : After the blade is transposed or replaced with a new blade, the change in the position of the tip should be within the range allowed by the workpiece accuracy.
3. Advantages
1. ** Improve processing efficiency ** : The high hardness and wear resistance of the blade make it able to maintain good cutting performance under high-speed cutting conditions, thereby improving processing efficiency.
2. ** Reduce processing costs ** : Because the blade can maintain the sharpness for a long time, it reduces the need for frequent blade replacement, thus reducing the processing cost.
3. ** Improve machining quality ** : The high precision and wear resistance of the blade can ensure the dimensional accuracy and surface quality of the workpiece, and meet the strict requirements of customers.
4. Application scenarios
Carbide inserts are cutting tools used in lathe machining, metal cutting, automotive manufacturing, aerospace, and aviation industries. These inserts are specifically designed to provide high precision and efficiency in cutting and shaping metal workpieces. With their durable carbide material, these inserts offer superior wear resistance and long-lasting performance. Whether you are working on a small project or a large-scale manufacturing operation, carbide inserts are essential tools for achieving precise and high-quality results. Trust in the reliability and performance of carbide inserts for all your machining needs.Blades are widely used in the processing of various metal materials, such as steel, cast iron, copper, aluminum, stainless steel and so on. Specific application scenarios include:
1. ** Steel processing ** : The blade is suitable for the processing of various steels, such as carbon steel, alloy steel, etc. By selecting the appropriate blade material and cutting parameters, efficient and high-precision machining can be achieved.
2. ** Cast iron processing ** : Cast iron material has the characteristics of brittleness and high hardness, and the lathe blade can maintain good cutting performance when processing cast iron to ensure the dimensional accuracy and surface quality of the workpiece.
3. ** Non-ferrous metal processing ** : The blade is also suitable for the processing of copper, aluminum and other non-ferrous metals. Due to the low hardness of non-ferrous metals, the blade can easily cut into the material during processing to achieve efficient and high-precision processing.
4. ** Stainless steel processing ** : Stainless steel material has the characteristics of corrosion resistance and high temperature resistance, but its hardness is high and processing is difficult. The lathe blade can maintain better cutting performance and wear resistance when machining stainless steel to ensure the stability and processing quality of the processing process.
In summary, the blade plays an important role in the field of metal processing with its unique materials, characteristics, advantages and a wide range of application scenarios.
1, material
The material of the blade is mainly as follows:
1. ** cemented carbide ** : also known as tungsten titanium alloy, with high hardness and wear resistance, is a commonly used material in turning processing.
2. ** High speed steel ** : with good toughness and heat resistance, suitable for some processing scenarios that need to withstand greater impact.
3. ** Ceramic ** : can maintain good hardness and wear resistance at high temperatures, suitable for high-speed cutting and processing high hardness materials.
4. ** Cubic boron nitride (CBN) ** : has very high hardness and wear resistance, especially suitable for processing high hardness materials, such as hardened steel, chilled cast iron and so on.
2, characteristics
1. High precision ** : The lathe blade can carry out high-speed, efficient and high-precision metal processing to ensure the dimensional accuracy and surface quality of the workpiece.
2. High wear resistance ** : Due to the use of high hardness material, the blade can be kept sharp for a long time, reducing the need for frequent blade replacement.
3. ** Smooth chip discharge ** : The design of the blade usually takes into account the problem of chip discharge to ensure that the chip can be smoothly discharged to avoid accumulation and blockage.
4. ** High positioning accuracy ** : After the blade is transposed or replaced with a new blade, the change in the position of the tip should be within the range allowed by the workpiece accuracy.
3. Advantages
1. ** Improve processing efficiency ** : The high hardness and wear resistance of the blade make it able to maintain good cutting performance under high-speed cutting conditions, thereby improving processing efficiency.
2. ** Reduce processing costs ** : Because the blade can maintain the sharpness for a long time, it reduces the need for frequent blade replacement, thus reducing the processing cost.
3. ** Improve machining quality ** : The high precision and wear resistance of the blade can ensure the dimensional accuracy and surface quality of the workpiece, and meet the strict requirements of customers.
4. Application scenarios
Carbide inserts are cutting tools used in lathe machining, metal cutting, automotive manufacturing, aerospace, and aviation industries. These inserts are specifically designed to provide high precision and efficiency in cutting and shaping metal workpieces. With their durable carbide material, these inserts offer superior wear resistance and long-lasting performance. Whether you are working on a small project or a large-scale manufacturing operation, carbide inserts are essential tools for achieving precise and high-quality results. Trust in the reliability and performance of carbide inserts for all your machining needs.Blades are widely used in the processing of various metal materials, such as steel, cast iron, copper, aluminum, stainless steel and so on. Specific application scenarios include:
1. ** Steel processing ** : The blade is suitable for the processing of various steels, such as carbon steel, alloy steel, etc. By selecting the appropriate blade material and cutting parameters, efficient and high-precision machining can be achieved.
2. ** Cast iron processing ** : Cast iron material has the characteristics of brittleness and high hardness, and the lathe blade can maintain good cutting performance when processing cast iron to ensure the dimensional accuracy and surface quality of the workpiece.
3. ** Non-ferrous metal processing ** : The blade is also suitable for the processing of copper, aluminum and other non-ferrous metals. Due to the low hardness of non-ferrous metals, the blade can easily cut into the material during processing to achieve efficient and high-precision processing.
4. ** Stainless steel processing ** : Stainless steel material has the characteristics of corrosion resistance and high temperature resistance, but its hardness is high and processing is difficult. The lathe blade can maintain better cutting performance and wear resistance when machining stainless steel to ensure the stability and processing quality of the processing process.
In summary, the blade plays an important role in the field of metal processing with its unique materials, characteristics, advantages and a wide range of application scenarios.
