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I. Product Material
Our Cold heading fixed blade is made of high - quality alloy steel as the base material, with alloying elements such as chromium, molybdenum, and vanadium added. Chromium enhances the corrosion resistance and wear resistance of the tool. Molybdenum improves the strength and hardness, while vanadium refines the grain structure, endowing the blade with better toughness and impact resistance. The blade surface is treated with a special coating to further enhance its wear resistance and anti - adhesion properties.
II. Usage Scenarios
The Cold heading fixed blade is widely applicable in the wood - processing industry, where it can be used to cut various types of boards and logs. In the food - processing field, it can precisely cut meat, fruits, and vegetables. In leather processing, it can be used for leather cutting. Additionally, it can also demonstrate excellent cutting performance in the processing of industrial materials such as plastics and rubbers.
III. Manufacturing Process
1. Forging: Heat the alloy steel billet to an appropriate temperature and forge it multiple times. This process makes the metal structure more compact, improving the overall performance of the blade.
2. Rough Machining: Use CNC (Computer Numerical Control) machines for rough machining to initially form the shape and size of the blade body.
3. Heat Treatment: Conduct quenching and tempering treatments. Precisely control the temperature and time to enable the blade to achieve the ideal balance of hardness and toughness.
4. Finish Machining: Adopt high - precision grinding processes to finely polish the blade edge, ensuring its sharpness and flatness.
5. Coating Treatment: Apply a special coating to the surface of the blade body to enhance its wear - resistance and corrosion - resistance.
IV. Unique Advantages
1. Long - lasting Sharpness: Through special heat treatment and edge - grinding processes, the blade is sharp and durable, ensuring high cutting efficiency.
2. High Precision: Advanced processing equipment and techniques are used to ensure the dimensional accuracy of the tool, resulting in a small cutting error.
3. Strong Versatility: It is suitable for cutting a variety of materials, meeting the needs of different industries.
V. Manufacturing Difficulties
1. Heat Treatment Control: Precisely controlling the temperature and time during the heat treatment process to achieve the optimal balance between hardness and toughness is quite challenging.
2. Coating Uniformity: Ensuring that the coating evenly covers the surface of the blade body to enhance the tool's performance requires high - level craftsmanship.
3. Edge Precision: Guaranteeing the sharpness of the blade edge and the straightness of the edge requires high - precision processing equipment and exquisite techniques.
VI. Maintenance during Use
1. Regular Cleaning: After use, promptly remove stains and debris from the surface of the blade body to prevent corrosion.
2. Edge Maintenance: Regularly inspect the blade edge and perform edge - grinding in a timely manner if there is any wear.
3. Anti - rust Treatment: When not in use for an extended period, apply anti - rust oil and store it in a dry place.
I. Product Material
Our Cold heading fixed blade is made of high - quality alloy steel as the base material, with alloying elements such as chromium, molybdenum, and vanadium added. Chromium enhances the corrosion resistance and wear resistance of the tool. Molybdenum improves the strength and hardness, while vanadium refines the grain structure, endowing the blade with better toughness and impact resistance. The blade surface is treated with a special coating to further enhance its wear resistance and anti - adhesion properties.
II. Usage Scenarios
The Cold heading fixed blade is widely applicable in the wood - processing industry, where it can be used to cut various types of boards and logs. In the food - processing field, it can precisely cut meat, fruits, and vegetables. In leather processing, it can be used for leather cutting. Additionally, it can also demonstrate excellent cutting performance in the processing of industrial materials such as plastics and rubbers.
III. Manufacturing Process
1. Forging: Heat the alloy steel billet to an appropriate temperature and forge it multiple times. This process makes the metal structure more compact, improving the overall performance of the blade.
2. Rough Machining: Use CNC (Computer Numerical Control) machines for rough machining to initially form the shape and size of the blade body.
3. Heat Treatment: Conduct quenching and tempering treatments. Precisely control the temperature and time to enable the blade to achieve the ideal balance of hardness and toughness.
4. Finish Machining: Adopt high - precision grinding processes to finely polish the blade edge, ensuring its sharpness and flatness.
5. Coating Treatment: Apply a special coating to the surface of the blade body to enhance its wear - resistance and corrosion - resistance.
IV. Unique Advantages
1. Long - lasting Sharpness: Through special heat treatment and edge - grinding processes, the blade is sharp and durable, ensuring high cutting efficiency.
2. High Precision: Advanced processing equipment and techniques are used to ensure the dimensional accuracy of the tool, resulting in a small cutting error.
3. Strong Versatility: It is suitable for cutting a variety of materials, meeting the needs of different industries.
V. Manufacturing Difficulties
1. Heat Treatment Control: Precisely controlling the temperature and time during the heat treatment process to achieve the optimal balance between hardness and toughness is quite challenging.
2. Coating Uniformity: Ensuring that the coating evenly covers the surface of the blade body to enhance the tool's performance requires high - level craftsmanship.
3. Edge Precision: Guaranteeing the sharpness of the blade edge and the straightness of the edge requires high - precision processing equipment and exquisite techniques.
VI. Maintenance during Use
1. Regular Cleaning: After use, promptly remove stains and debris from the surface of the blade body to prevent corrosion.
2. Edge Maintenance: Regularly inspect the blade edge and perform edge - grinding in a timely manner if there is any wear.
3. Anti - rust Treatment: When not in use for an extended period, apply anti - rust oil and store it in a dry place.
