Pneumatic Slitting Rotary Round Blade Paper Non-Woven Fabric Cutter

Description:

Here are the advantages of using high-speed steel (HSS) for paper cutting blades:

1. High Hardness

• Durable Edge: HSS maintains a sharp cutting edge, allowing for precise and clean cuts over extended use.

2. Heat Resistance

• Performance Under Stress: HSS can withstand high temperatures generated during cutting, preventing loss of hardness and performance.

3. Wear Resistance

• Long Lifespan: The material is resistant to wear, reducing the frequency of blade replacements in high-volume applications.

4. Toughness

• Impact Resistance: HSS blades can absorb shocks and resist chipping, making them suitable for various cutting conditions.

5. Versatility

• Multi-Material Capability: Effective for cutting not only paper but also a range of other materials, making it a versatile choice for different applications.

6. Ease of Sharpening

• Maintainable: HSS blades can be sharpened relatively easily, helping to extend their useful life and maintain performance.

7. Cost-Effectiveness

• Value for Money: While initially more expensive than some other materials, the durability and longevity of HSS can lead to lower overall costs in the long run.

Paper Cutting Blade Specifications:

Here’s a comparison of high-speed steel (HSS) with other materials used for cutting blades:

1. High-Speed Steel (HSS)

• Hardness: Very hard and retains sharpness well.
• Heat Resistance: Performs well under high temperatures.
• Wear Resistance: Durable and resistant to wear.
• Toughness: Good impact resistance, less prone to chipping.
• Sharpening: Easier to sharpen than some materials.
• Cost: Moderate cost, often offering good long-term value.

2. Cemented Carbide

• Hardness: Extremely hard, often harder than HSS.
• Heat Resistance: Excellent thermal stability.
• Wear Resistance: Superior wear resistance; suitable for heavy-duty applications.
• Toughness: More brittle, prone to chipping under impact.
• Sharpening: Difficult to sharpen; often requires replacement.
• Cost: Higher initial cost but longer lifespan can justify expense.

3. Stainless Steel

• Hardness: Generally less hard than HSS and carbide.
• Heat Resistance: Moderate heat resistance; can lose hardness at high temperatures.
• Wear Resistance: Good but not as durable as HSS or carbide.
• Toughness: Good toughness; less prone to breakage.
• Sharpening: Sharpening can be more challenging; retains sharpness moderately well.
• Cost: Typically lower cost; good for applications requiring corrosion resistance.

4. Titanium-Coated Steel

• Hardness: Steel base with a harder titanium coating.
• Heat Resistance: Improved performance under heat compared to untreated steel.
• Wear Resistance: Coating enhances wear resistance, but the underlying steel may wear faster.
• Toughness: Good toughness; resistant to breaking.
• Sharpening: Can be difficult to sharpen due to the coating.
• Cost: Moderate cost; benefits from enhanced performance.

5. Ceramic

• Hardness: Very hard; retains sharpness exceptionally well.
• Heat Resistance: High thermal stability; does not lose hardness easily.
• Wear Resistance: Excellent wear resistance but can be brittle.
• Toughness: Prone to chipping and breaking under impact.
• Sharpening: Difficult to sharpen; often requires replacement.
• Cost: Higher initial cost; used mainly for specific applications.

Picture:

Applications:

Size:

Packing & Delivery: