Product Description:
Polyoxymethylene (POM) Overview
Polyoxymethylene (POM) is an engineering plastic renowned for its outstanding performance characteristics. It is often referred to as "steel grabbing" and "super steel" in international markets. POM shares similar hardness, strength, and toughness qualities with metals, while also offering exceptional self-lubrication, fatigue resistance, and elasticity across a wide range of temperature and humidity conditions.
Advantages of POM
Moreover, POM boasts excellent chemical resistance properties. With a lower cost compared to many other types of engineering plastics, POM is increasingly displacing traditional metal markets such as zinc, brass, aluminum, and steel in the production of various components.
Applications of POM
Since its introduction, POM has found widespread applications in diverse industries including electronics, machinery, instrumentation, daily light industry, automotive, construction materials, agriculture, and more. Furthermore, POM is experiencing significant growth in emerging sectors like medical technology and sports equipment.
Features:
With its well-balanced mechanical properties and high fatigue resistance, the product stands out for its durability and reliability. It excels in offering excellent anticreep properties, ensuring superior performance even under high-stress conditions.
The product's exceptional low friction and anti-wear properties make it a top choice for applications where wear and friction need to be minimized. Moreover, its wide range of operating temperatures allows for versatile use across various environments and conditions.
In addition, the product boasts high oil and organic chemical resistance, providing longevity and protection in environments where exposure to chemicals is a concern. Its excellent thermal stability in molding processes further enhances its durability and performance.
Technical Parameters:
| Density |
1.41 g/cm³ |
| Tensile Modulus |
2600 MPa |
| Melt Flow Index |
9 G/10min |
| Tensile Strength |
63 MPa |
| Water Absorption |
0.12% |
| Izod Notch Impact |
6 KJ/m² |
| Elongation |
35% |
| Flexural Strength |
90 MPa |
| Flexural Modulus |
2600 MPa |
| H.D.T |
95 °C |
Applications:
POM Characteristics and Applications
Polyoxymethylene (POM), also known as acetal, is a high-performance engineering plastic renowned for its outstanding properties. These include high strength, exceptional rigidity, excellent wear resistance, and superb chemical resistance.
Applications in Various Industries:
In mechanical manufacturing, POM is utilized extensively for crafting mechanical components like gears, bearings, and transmission parts. These components excel in bearing high loads due to their impressive wear resistance and low friction coefficient.
Within the automotive sector, POM finds applications in fuel system components, bearings, interior parts, and more. Its remarkable dimensional stability and resistance to fuels make it an ideal choice in this industry.
Electronic appliances benefit from POM's insulating shells, connectors, and other components due to their exceptional electrical properties and resistance to chemical corrosion.
Furthermore, POM is commonly employed in the manufacturing of precision instrument parts and everyday items such as zippers and hinges. Its high precision and ease of processing make it a preferred material for such applications.
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