The polyoxymethylene (POM) material used in the 38MM Shangri-La clutch (small) has many advantages, which significantly improve the performance, durability and application range of the clutch.
High mechanical strength and rigidity: As a high-performance engineering plastic, polyacetal has excellent mechanical strength and rigidity. In the 38MM Shangri-La clutch, it ensures that the clutch can withstand high loads and severe impacts from the transmission system, maintaining stable performance output whether it is high-speed rotation or heavy-load startup. The clutch is less prone to deformation or damage under extreme working conditions, thus extending the overall service life.
Excellent wear resistance and self-lubrication: During the working process of the clutch, friction and wear are inevitable. However, the wear resistance of polyacetal far exceeds that of most other engineering plastics, and clutch wear will be significantly reduced even under long-term, high-frequency use. In addition, the self-lubricating property of polyoxymethylene further reduces the friction coefficient, which not only extends the service life of the clutch, but also reduces the heat and noise generated by friction, improving the overall work efficiency and user experience.
Wide operating temperature range: From cold winter to hot summer, different working environments pose challenges to the temperature resistance performance of the clutch. The polyacetal material can maintain stable physical and chemical properties in a wide temperature range of -40°C to 120°C, which allows the 38MM Shangri-La clutch to work normally in various extreme climate conditions without worrying about performance degradation caused by temperature changes. or failure.
Good dimensional stability: The dimensional stability of materials is crucial for precision mechanical components. Polyoxymethylene has very low water absorption and is virtually unaffected by changes in humidity, allowing it to maintain a constant size and shape. This characteristic ensures that the clutch will not experience a drop in accuracy or performance fluctuations due to expansion or contraction due to water absorption during long-term use, thereby ensuring the stability and reliability of the clutch.
High fatigue strength: During the working cycle of the clutch, repeated loading and unloading will cause material fatigue, thereby affecting the service life of the clutch. Polyoxymethylene is known for its excellent fatigue strength, maintaining good performance stability even after millions of loading-unloading cycles. In application scenarios that require frequent starts and stops, the 38MM Shangri-La clutch can reduce the risk of failure due to fatigue and improve overall work efficiency and reliability.
Resistance to organic solvents: In some special working environments, the clutch may be exposed to various organic solvents. Polyoxymethylene has excellent resistance to a wide range of organic solvents, allowing it to maintain stable performance and structural integrity in these environments. This characteristic makes the 38MM Shangri-La clutch have broad application prospects in chemical, petroleum, pharmaceutical and other industries.
Easy to process: POM material has good processing properties and is suitable for various molding processes such as extrusion, injection molding, and blow molding. This not only makes the clutch production process more efficient and flexible, but also reduces production costs and cycle times. At the same time, good processing performance also provides more possibilities for clutch design and manufacturing to meet the needs of different users and application scenarios.
To sum up, the 38MM Shangri-La clutch uses polyacetal material, which not only improves the mechanical properties, wear resistance and operating temperature range of the clutch, but also ensures its dimensional stability and electrical properties, providing long-term use and reliability of the clutch. Strong guarantee.