Stainless Steel Plastic Pelletizer Knives Rolling Pulverizer Parts For Recycling Machine

Stainless Steel Plastic Pelletizer Knives Pulverizer Parts For Recycling Machine

Description:

The key structural features of pelletizer blades are as follows:

1,Blade Geometry:

• Pelletizer blades typically have a trapezoidal or rectangular cross-section to provide the necessary strength and rigidity.
• The blade edges are beveled or angled to create a sharp cutting edge that can effectively shear and slice the material being pelletized.
• The blade length and width are designed to match the specific pelletizer chamber dimensions and throughput requirements.

2,Mounting and Attachment:

• Pelletizer blades are securely mounted onto the rotor or die of the pelletizing equipment.
• The blades are often held in place using bolts, clamps, or other fastening mechanisms that allow for easy replacement or adjustment as needed.
• The mounting system ensures the blades are properly aligned and oriented to provide consistent and efficient cutting action.

3,Cooling Channels (Optional):

• In some pelletizer designs, the blades may incorporate internal cooling channels or passages.
• These channels allow for the circulation of a cooling medium, such as water or air, to dissipate the heat generated during the high-speed pelletizing process.
• Effective blade cooling helps maintain the blade's dimensional stability and cutting performance over extended periods of use.

4,Wear-Resistant Coatings (Optional):

• As mentioned earlier, pelletizer blades may be coated with specialized wear-resistant materials, such as titanium nitride (TiN) or chromium nitride (CrN).
• These coatings are applied to the blade surfaces, particularly the cutting edges, to enhance their resistance to abrasive wear and prolong the blade's service life.

5,Replaceable Cutting Edges:

• In some pelletizer designs, the cutting edges of the blades are designed to be replaceable or reversible.
• This feature allows the worn or damaged cutting edges to be easily swapped out, rather than replacing the entire blade assembly.
• Replaceable cutting edges help minimize maintenance costs and downtime associated with blade replacements.

Pelletizer Blades Specifications:

Let's discuss the common materials used for pelletizer blades and their key advantages:

1,Tool Steels:

• Tool steels, such as high-speed steel (HSS) and D2 tool steel, are widely used for pelletizer blades.
• These steels offer a good balance of hardness, wear resistance, and toughness, making them well-suited for the demanding pelletizing environment.
• Tool steels can be heat-treated to achieve optimal hardness levels, typically in the range of 58-64 HRC (Rockwell C scale).
• The heat treatment process also enhances the blades' resistance to chipping, cracking, and deformation during operation.

2,Tungsten Carbide:

• Tungsten carbide is another popular material choice for pelletizer blades.
• Tungsten carbide is an extremely hard and wear-resistant material, typically exhibiting hardness values in the range of 70-90 HRC.
• The superior hardness of tungsten carbide allows the blades to maintain their sharp cutting edges for an extended period, reducing the frequency of blade replacements.
• Tungsten carbide blades are particularly well-suited for processing abrasive or highly-compacted materials, where the increased wear resistance is crucial.

3,Ceramic Composites:

• In some specialized applications, ceramic-based composite materials may be used for pelletizer blades.
• These composites, such as silicon nitride or silicon carbide, offer exceptional hardness, wear resistance, and thermal stability.
• Ceramic composite blades are particularly useful in applications where high-temperature operation or exposure to corrosive materials is a concern.
• The manufacturing process for ceramic composite blades is more complex and expensive compared to steel or tungsten carbide, but the increased performance can justify the higher cost in certain applications.

4,Coated Blades:

• As mentioned earlier, pelletizer blades can be coated with various wear-resistant materials, such as titanium nitride (TiN) or chromium nitride (CrN).
• These coatings are applied to the blade surfaces, particularly the cutting edges, to further enhance their resistance to abrasive wear, adhesion, and other forms of degradation.
• Coated blades can extend the service life of the pelletizer blades, reducing the frequency of blade replacements and maintenance downtime.

Picture:

Application:

Packing & Delivery: