TCT Circular Slitting Knife Blades Corrugated Box Cutting 230*110*1.1Mm
Description:
Here are the key features of TCT (Tungsten Carbide Tipped) corrugated flat circular cutting blades:
1,Exceptional Wear Resistance
- The blades are made with a tungsten carbide material, providing outstanding abrasion resistance.
- The enhanced wear resistance helps extend the service life of the blades.
2,Sharp Cutting Edge
- The blades feature a specialized coating process that maintains a durable, razor-sharp cutting edge.
- The sharp cutting edge improves cutting efficiency and workpiece surface quality.
3,Excellent Thermal Resistance
- The tungsten carbide material and coating process give the blades excellent high-temperature tolerance.
- This helps the blades resist localized overheating during high-speed cutting operations.
4,Reduced Noise
- The corrugated flat blade design effectively minimizes cutting noise.
- This reduces operational noise interference, improving the overall work environment.
5,Clean Cut Edges
- The superior cutting performance ensures clean, burr-free edges on the workpieces.
- This reduces the need for additional finishing operations, improving overall production efficiency.
6,Versatile Applications
- These blades are suitable for cutting a wide range of materials, such as paper, plastics, and soft composites.
- They can meet diverse cutting requirements across various industries and processes.
Rotary Slitter Blade Specifications:
| Product Name | Circular Slitting Knife Blades |
| Material | TCT |
| Precision | 0.01-0.03mm |
| Hardness | HRC 45~92 |
| Outer Diameter | 230mm |
| Thickness | 1.1mm |
| Inner Diameter | 110mm |
| Applicable Industries | Manufacturing Plant |
When selecting the appropriate size and specification of TCT (Tungsten Carbide Tipped) corrugated flat circular cutting blades, the following key factors should be considered:
1,Machine Equipment Requirements
- Firstly, determine the size limitations of the cutting equipment (e.g., slitting machines, die-cutting machines) being used.
- Choose blade diameter and arbor hole size that are compatible with the specific equipment to ensure proper installation and operation.
2,Workpiece Material Characteristics
- Based on the properties of the material to be cut (e.g., paper, plastics, composites), select the appropriate blade thickness and sharpness.
- Harder or thicker materials require blades with greater thickness and sharpness to ensure effective cutting.
3,Cutting Precision Requirements
- For applications requiring high-precision cutting, thinner blades can be used to achieve a more refined, clean-cut edge.
- For less demanding cutting requirements, thicker blades can provide greater rigidity and durability.
4,Cutting Speed Considerations
- Choose the blade size based on the anticipated cutting speed.
- Higher-speed cutting operations generally require larger-diameter blades to ensure sufficient cutting capacity.
5,Economic Factors
- Within the constraints of the technical requirements, select the size and specification that offers the best value.
- Reducing the blade size can improve cost-effectiveness, but this needs to be balanced with the technical needs.
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