Tensile Modulus 2600MPa and Flexural Strength 90MPa Polyoxymethylene Polymers for Demanding Applications

Product Description:

Polyoxymethylene (POM) is a type of engineering plastic renowned for its exceptional performance. It is commonly referred to as the "steel grabbing" or "super steel" due to its remarkable characteristics. POM possesses hardness, strength, and toughness comparable to metals, and boasts features such as self-lubrication, fatigue resistance, and elasticity across a broad spectrum of temperature and humidity levels.

Furthermore, POM demonstrates good chemical resistance and is more cost-effective than many other engineering plastics. Consequently, it is increasingly substituting traditional metal markets like zinc, brass, aluminum, and steel for the production of various components. Since its introduction, POM has found extensive applications in diverse sectors including electronics, machinery, instruments, daily light industry, automobiles, building materials, agriculture, and more.

The versatility of POM has enabled its adoption in emerging areas like medical technology and sports equipment, showing a promising growth trajectory across various industries.

Features:

Well-balanced mechanical properties and high fatigue resistance
This material exhibits a well-balanced set of mechanical properties along with excellent resistance to fatigue, making it ideal for applications requiring durability under varying loads and stresses.

Excellent anticreep properties
With outstanding anticreep properties, this material is able to withstand prolonged periods of stress without significant deformation, ensuring long-term performance in demanding conditions.

Excellent low friction and anti-wear properties
Featuring exceptional low friction and anti-wear characteristics, this material reduces frictional losses and enhances wear resistance, leading to improved efficiency and longevity in applications requiring sliding or rubbing surfaces.

Wide range of operating temperatures
Capable of performing across a wide range of operating temperatures, this material is suitable for use in environments with varying heat levels, providing versatility and reliability in diverse applications.

High oil and organic chemical resistance
With high resistance to oil and organic chemicals, this material maintains its integrity when exposed to such substances, ensuring durability and performance in environments where chemical exposure is a concern.

Excellent thermal stability in molding
Possessing excellent thermal stability during the molding process, this material maintains its shape and properties under high temperatures, making it a dependable choice for molding applications that require precision and consistency.

Technical Parameters:

Applications:

POM (polyoxymethylene) is a high-performance engineering plastic known for its outstanding characteristics. It boasts high strength, high rigidity, wear resistance, and chemical resistance, making it a versatile material for various applications.

In the realm of mechanical manufacturing , POM is frequently utilized in the production of mechanical parts like gears, bearings, and transmission components. These components are able to endure high loads thanks to POM's impressive wear resistance and low friction coefficient.

The automotive industry also benefits from POM's properties. It is well-suited for fuel system components, bearings, interior parts, and more. Its excellent dimensional stability and fuel resistance performance make it a sought-after material in this sector.

Within the domain of electronic appliances , POM finds its applications in insulating shells, connectors, and various components. Its exceptional electrical performance and resistance to chemical corrosion make it a reliable choice for such electronic applications.

POM's qualities extend to daily necessities and precision instruments as well. It is a common presence in precision instrument parts and everyday items like zippers and hinges. The high precision and ease of processing of POM contribute to its popularity in these areas.