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WCMX080412-XT NP515
SHITREGER
NEK-WCMX10
Drilling Insert
Automobile, machine tool, aviation, mould
10PCS/BOX
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The materials, characteristics, advantages and applications of drilling blades are as follows:
### Material
The main materials commonly used for drilling blades are high-speed steel (HSS), cemented carbide, cermet, cubic boron nitride (CBN) and polycrystalline diamond (PCD).
1. ** High speed steel ** : has good toughness and heat resistance, suitable for general drilling processing.
2. ** cemented carbide ** : composed of tungsten carbide and metal binder, with high hardness and wear resistance, is a commonly used material in drilling processing.
3. ** cermet ** : with higher wear resistance and lower bonding tendency, it is suitable for processing viscous materials prone to chip accumulation problems.
4. ** Cubic boron nitride (CBN) ** : the hardness is second only to diamond, with excellent red hardness and thermal shock resistance, suitable for processing high-hardness materials.
5. ** Polycrystalline diamond (PCD) ** : one of the hardest materials, with good wear resistance, but it is easy to react with iron at high temperatures, so it is not suitable for processing iron-containing materials.
### Features
1. ** High hardness ** : Drilling blades are usually made of high hardness materials, which can resist wear and deformation during cutting.
2. High wear resistance ** : high-quality drilling blades have excellent wear resistance, which can extend the service life and reduce the frequency of blade replacement.
3. ** Good toughness ** : Drilling blades need to have a certain toughness to withstand the impact and vibration during the cutting process.
4. The most diverse coating technology ** : The drilling blade is coated by physical vapor deposition (PVD) or chemical vapor deposition (CVD) technology, which can improve its cutting performance and durability.
### Advantage
1. ** Improve processing efficiency ** : high-quality drilling blades can reduce cutting time and cutting force, thereby improving processing efficiency.
2. ** Ensure processing quality ** : The high hardness and wear resistance of the drilling blade can ensure the sharpness and accuracy of the cutting edge, thereby improving the processing quality.
3. ** Reduce processing costs ** : Although the price of high-quality drilling blades may be higher, due to their long service life and low replacement frequency, processing costs can be reduced in the long run.
4. ** Enhanced cutting stability ** : The drilling blade uses advanced materials and coating technology to enhance the stability of the cutting process and reduce vibration and noise.
### Application
1. ** Metal processing ** : Drilling blades are widely used in the processing of metal materials, such as steel, iron, aluminum, copper and so on.
2. ** Aerospace ** : In the aerospace field, drilling blades are used for machining high-precision, high-quality parts.
3. ** Automotive manufacturing ** : In the automotive manufacturing process, the drilling blade is used to process the holes and threads of the engine, gearbox and other components.
4. ** Mold manufacturing ** : In mold manufacturing, drilling blades are used to process holes and threads and other structures on the mold.
In short, drilling blades play an important role in cutting because of their diverse materials, characteristics, advantages and a wide range of application fields. When selecting a drilling blade, it is necessary to comprehensively consider factors such as specific processing needs, workpiece materials and cutting conditions.
The materials, characteristics, advantages and applications of drilling blades are as follows:
### Material
The main materials commonly used for drilling blades are high-speed steel (HSS), cemented carbide, cermet, cubic boron nitride (CBN) and polycrystalline diamond (PCD).
1. ** High speed steel ** : has good toughness and heat resistance, suitable for general drilling processing.
2. ** cemented carbide ** : composed of tungsten carbide and metal binder, with high hardness and wear resistance, is a commonly used material in drilling processing.
3. ** cermet ** : with higher wear resistance and lower bonding tendency, it is suitable for processing viscous materials prone to chip accumulation problems.
4. ** Cubic boron nitride (CBN) ** : the hardness is second only to diamond, with excellent red hardness and thermal shock resistance, suitable for processing high-hardness materials.
5. ** Polycrystalline diamond (PCD) ** : one of the hardest materials, with good wear resistance, but it is easy to react with iron at high temperatures, so it is not suitable for processing iron-containing materials.
### Features
1. ** High hardness ** : Drilling blades are usually made of high hardness materials, which can resist wear and deformation during cutting.
2. High wear resistance ** : high-quality drilling blades have excellent wear resistance, which can extend the service life and reduce the frequency of blade replacement.
3. ** Good toughness ** : Drilling blades need to have a certain toughness to withstand the impact and vibration during the cutting process.
4. The most diverse coating technology ** : The drilling blade is coated by physical vapor deposition (PVD) or chemical vapor deposition (CVD) technology, which can improve its cutting performance and durability.
### Advantage
1. ** Improve processing efficiency ** : high-quality drilling blades can reduce cutting time and cutting force, thereby improving processing efficiency.
2. ** Ensure processing quality ** : The high hardness and wear resistance of the drilling blade can ensure the sharpness and accuracy of the cutting edge, thereby improving the processing quality.
3. ** Reduce processing costs ** : Although the price of high-quality drilling blades may be higher, due to their long service life and low replacement frequency, processing costs can be reduced in the long run.
4. ** Enhanced cutting stability ** : The drilling blade uses advanced materials and coating technology to enhance the stability of the cutting process and reduce vibration and noise.
### Application
1. ** Metal processing ** : Drilling blades are widely used in the processing of metal materials, such as steel, iron, aluminum, copper and so on.
2. ** Aerospace ** : In the aerospace field, drilling blades are used for machining high-precision, high-quality parts.
3. ** Automotive manufacturing ** : In the automotive manufacturing process, the drilling blade is used to process the holes and threads of the engine, gearbox and other components.
4. ** Mold manufacturing ** : In mold manufacturing, drilling blades are used to process holes and threads and other structures on the mold.
In short, drilling blades play an important role in cutting because of their diverse materials, characteristics, advantages and a wide range of application fields. When selecting a drilling blade, it is necessary to comprehensively consider factors such as specific processing needs, workpiece materials and cutting conditions.
