9Crsi 150*10*2Mm Industrial Plastic Crusher Blade For Crusher Machine
Description:
Industrial plastic shredder blades have the following key features:
1,Material Selection:
- High-quality alloy steels, such as 50Mn and 65Mn, are commonly used for the blades.
- Alloy steels provide high hardness, wear resistance, and toughness to withstand the high-impact stresses.
2,Blade Design:
- The blade shapes can vary, including straight, angled, and curved blades.
- Optimized blade angles and geometric dimensions contribute to improved cutting efficiency.
3,Surface Treatment:
- The blade surfaces undergo treatments like quenching, nitriding, or vacuum coating to enhance wear resistance.
- These surface modifications improve the blade's performance and extend its service life.
4,Mounting Structure:
- The blades are mounted on the rotor or the chamber walls, forming the cutting chamber.
- The design of the feed inlet, discharge outlet, and chamber dimensions are critical for the shredding performance.
5,Working Principle:
- The high-speed rotating blades shear and tear the plastic material as it enters the cutting chamber.
- The plastic is repeatedly cut until it is reduced to smaller particles.
6,Maintenance and Care:
- Regular inspection and timely replacement of worn-out blades are essential.
- Proper blade maintenance is crucial for maintaining the shredder's performance.
Industrial Blade Specifications:
| Product name | Industrial Plastic Crusher Blade |
| Material | 9Crsi |
| Hardness | HRC55-62 |
| Precision | ±50 Micron |
| Length | 150mm |
| Width | 10mm |
| Thickness | 2mm |
| Applicable Industries | Manufacturing Plant |
The shapes of industrial plastic shredder blades can vary, and the most common designs include:
1,Straight Blades:
- These are the simplest blade design, with a straight cutting edge.
- Straight blades provide a straightforward and efficient cutting action.
2,Angled Blades:
- The blades feature an angled cutting edge, often at 30-45 degrees.
- The angled design helps to improve the cutting performance and material flow.
3,Curved Blades:
- The blades have a curved or swept-back cutting edge.
- The curved shape can enhance the material shredding action and reduce jamming.
4,Serrated Blades:
- These blades have a toothed or serrated cutting edge.
- The serrated design helps to grip and tear the plastic material more effectively.
5,Combination Blades:
- Some shredder designs employ a combination of different blade shapes, such as straight and angled, or curved and serrated.
- The combination of blade geometries can provide enhanced shredding capabilities for specific plastic materials or applications.
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