Reliable MIM Metal Injection Molding Process Smooth Pharmaceutical Conveyor Belt Sprockets
Brand Name:Polestar
Certification:ISO9001, TS16949
Model Number:As Drawing
Minimum Order Quantity:1000pcs
Delivery Time:3-20days
Payment Terms:L/C,D/A,D/P,T/T
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No. 999 Xueyuan Road, Bacheng Town, Kunshan City, Jiangsu China 215300
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Stainless Steel 430 MIM Pharmaceutical Conveyor Belt Sprockets Heat
Resisitant
Molding Process: Metal Injection Molding (MIM):
The MIM process for these sprockets offers several advantages. Firstly, it allows for the production of complex geometries with high precision. The fine metal powder of Stainless Steel 430 is mixed with a binder to form a feedstock. This feedstock is then injected into a mold under high pressure, creating a near-net-shape sprocket. After injection, the binder is removed through debinding, and the part is sintered at high temperatures in an inert atmosphere. This process results in a sprocket with excellent mechanical properties and consistent quality, which is crucial for the reliable operation of pharmaceutical conveyor systems.
Performance Comparison:
Property | Stainless Steel 430 (MIM) | Stainless Steel 304 (MIM) | Plastic Sprockets | Carbon Steel Sprockets |
|---|---|---|---|---|
Tensile Strength | 450-600 MPa | 505-860 MPa | 50-100 MPa | 400-550 MPa |
Hardness | 150-200 HV | 150-200 HV | 50-100 HV | 200-300 HV |
Thermal Conductivity | 26 W/m·K | 16 W/m·K | 0.2-0.5 W/m·K | 50 W/m·K |
Density | 7.7 g/cm³ | 8.0 g/cm³ | 1.0-1.5 g/cm³ | 7.8 g/cm³ |
Design Considerations:
1. Tooth Profile: Optimized for smooth engagement with conveyor belts.
2. Hub Design: Customizable for different shaft sizes and mounting requirements.
3. Surface Finish: Polished or coated for enhanced corrosion resistance and cleanability.
4. Load Capacity: Designed to handle specific loads and speeds.
Advantages of MIM Process:
1. Complex Geometries
The MIM process enables the production of parts with extremely complex geometries that are difficult or impossible to achieve with traditional manufacturing methods. Intricate internal channels, thin walls, and detailed features can be precisely formed, providing designers with greater freedom in product development.
2. High Precision
Stainless Steel MIM parts can achieve high precision in dimensions. Tolerances can be controlled within a relatively narrow range, typically around ±0.3% to ±0.5% of the part dimension, ensuring a perfect fit when assembled with other components.
3. Material Efficiency
The MIM process has high material utilization. Since the parts are formed near-net-shape, there is minimal waste of stainless steel material, which is cost-effective, especially for expensive stainless steel grades.
Future Prospects:
As technology continues to evolve, MIM is expected to experience further advancements. Research efforts are focused on improving material properties, expanding the range of applicable materials, and enhancing the process's efficiency and sustainability. Additionally, the integration of MIM with other manufacturing technologies, such as 3D printing, may open up new possibilities for creating innovative and customized components in various industries.
Reliable MIM Metal Injection Molding Process Smooth Pharmaceutical Conveyor Belt Sprockets
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