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MI: 9g/10min
Hardness: 75M
(Custom materials available according to your Technical Data Sheet)
Customizable Materials Available:
What is POM Material?
POM, also known as Polyoxymethylene, is a high-performance engineering plastic that belongs to the family of crystalline thermoplastics. It is commonly available in the form of POM pellets, which are small granules used as raw material for various manufacturing processes.
POM (polyoxymethylene, also known as polyacetal or acetal) is generally a highly crystalline thermoplastic. It has good mechanical properties, high dimensional stability, and wear behavior. Also, high strength and low coefficient of friction are significant and advantageous characteristics of POM plastics. The POM is recyclable, and the main properties are maintained in the recycled POM (R-POM) if properly treated.
The Feature of Plastic Pom Resin/Pellet/Granule POM
POM plastic material specification/ POM material properties
As a POM material manufacturer in the industry, we are dedicated to providing high-quality POM pellets that meet your specific needs.
We understand the importance of having comprehensive information about the material you require. You can also kindly tell us what color would you like, material POM black, or other colors are available. To ensure we provide you with the most accurate and relevant quotation, we kindly invite you to share the Technical Data Sheet (TDS) or any specific property requirements for the POM plastic pellets.
POM stands for Polyoxymethylene, which is also known as Acetal or Polyacetal. It is a high-performance engineering thermoplastic known for its excellent mechanical properties, low friction, and dimensional stability. The composition of POM includes:
Polymer Backbone: The main component of POM is the polymer chains consisting of repeating units of oxymethylene (-O-CH2-) linked together. These chains provide POM with its structure and properties.
Methyl Groups: POM contains methyl groups attached to the oxygen atoms along the polymer chain. These methyl groups contribute to the polymer's chemical and thermal stability.
Additives: POM resins can include various additives such as stabilizers, lubricants, and fillers to enhance specific properties or improve processability.
Key properties of POM include high stiffness, excellent wear resistance, low friction, good chemical resistance, and dimensional stability. POM is commonly used in applications where high mechanical strength and precision are required, such as gears, bearings, snap-fit assemblies, automotive components, and medical devices.
POM composite refers to a material that is a blend of Polyoxymethylene (POM) with other substances or reinforcements to enhance or modify its properties. The addition of these additives can help tailor the material to specific application requirements. Some common types of POM composites include:
Filled POM Composite: POM can be reinforced with fillers such as glass fibers, carbon fibers, or minerals to improve strength, stiffness, and dimensional stability. These filled POM composites exhibit enhanced mechanical properties compared to unfilled POM.
Lubricated POM Composite: POM can be compounded with lubricating additives like PTFE (polytetrafluoroethylene) to reduce friction and improve wear resistance. These lubricated POM composites are commonly used in applications where low friction and good wear properties are crucial.
Impact-Modified POM Composite: By incorporating impact modifiers into POM, the toughness and impact resistance of the material can be improved. Impact-modified POM composites are used in applications where resistance to mechanical shock or impact is essential.
Heat-Stabilized POM Composite: To enhance the thermal stability of POM and improve its performance at elevated temperatures, heat stabilizers may be added to the material. Heat-stabilized POM composites are suitable for applications that require good thermal resistance.
Electrically Conductive POM Composite: POM can be formulated with conductive additives to create electrically conductive composites. These materials are used in applications where static electricity control or EMI (electromagnetic interference) shielding is required.
Overall, POM composites offer a wide range of properties tailored to specific applications, providing designers with flexibility in material selection to meet diverse performance requirements.