Polyacetal Material - Durable Engineering Material
Suzhou Yifuhui supplies high-quality Polyoxymethylene Plastic for various industries.
Polyoxymethylene (POM), commonly known as acetal, is a highly durable engineering plastic known for its outstanding strength, low friction, and wear resistance. We offer high-quality POM plastic made from premium materials with excellent dimensional stability and chemical resistance for a wide range of applications in industries such as automotive, electronics, and manufacturing. This versatile polyacetal material is ideal for applications that require precision and durability, including gears, bearings, and structural components. With its outstanding mechanical properties, our POM plastics provide reliable solutions for challenging industrial requirements.
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Key Feature Polyoxymethylene Plastic
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Polyoxymethylene (POM) plastic, also known as acetal, is celebrated for its outstanding mechanical strength, low friction, and excellent wear resistance. This high-performance POM material is ideal for precision engineering applications where durability and stability are essential. From automotive gears and industrial bearings to medical components, POM plastic consistently delivers reliable results, even in demanding environments. Its resistance to chemicals, low moisture absorption, and superior machinability make it a preferred choice across industries.
Discover how POM plastic can address your business requirements with its exceptional features and versatility. Request a demo to explore its potential, share its benefits with your team for evaluation, or fill out a form to discuss tailored solutions. For detailed insights and expert advice, contact our customer service team today.
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Polyoxymethylene Plastic: Uses in Various Industries
Discover the Versatility of Polyoxymethylene Plastic in Various Industries
Polyoxymethylene (POM) plastic’s unique properties make it an invaluable choice for applications requiring precision, durability, and reliability. Plastic material POM is widely used for manufacturing gears, fuel system components, seatbelt mechanisms, and electrical connectors. Its dimensional stability and resistance to heat and chemicals ensure long-term performance under demanding conditions. Thanks to its insulating properties and durability, POM is an ideal material for electrical device switches, connectors, and housings, providing safety and precision. In the medical field, POM materials are utilized for surgical instruments, drug delivery devices, and dental components. POM is also a popular material for producing zippers, buttons, conveyor belts, pump components, bearings, and appliance components due to its smooth finish and ability to withstand wear and tear.
Whether your project involves automotive innovations, advanced electronics, or industrial equipment, POM plastic offers versatility and reliability to meet various demands.
Polyoxymethylene Plastic For Sale
Polyacetal POM-C
Polyacetal POM-C, a versatile grade of polyoxymethylene, is celebrated for its excellent mechanical strength, low friction, and superior dimensional stability. This engineering plastic is widely used across industries such as automotive, electronics, and medical devices for its ability to withstand high mechanical stress and maintain precision under extreme conditions. Often compared to polyoxymethylene delrin, POM-C stands out for its exceptional resistance to chemicals and moisture, making it ideal for manufacturing gears, bearings, and intricate precision components where high performance and reliability are required.
Table Summarizing the Technical Data of POM Plastic
Property | Unit | Value (FM090) | Value (M90-44) |
---|---|---|---|
Colour | - | Natural | CF2001/CD3068 |
Density | g/cm3 | 1.41 | 1.41 |
Water absorption (23℃, 24hrs, 1mmt) | % | 0.22 | 0.5 |
MFR (190℃, 2.16kg) | g/10min | 9 | 9 |
Tensile strength | MPa | 60.8 | 62 |
Strain at break | % | 60 | 35 |
Tensile modulus | MPa | 2550 | 2700 |
Flexural strength | MPa | 93.2 | 87 |
Flexural modulus | MPa | 2550 | 2500 |
Charpy notched impact strength (23℃) | kJ/m² | 6 | 6 |
Temperature of deflection under load (1.8MPa) | ℃ | 110 | 95 |
Coefficient of linear thermal expansion (23-55℃, Flow direction) | x10⁻⁵/°C | 12 | 12 |
Coefficient of linear thermal expansion (23-55℃, Transverse direction) | x10⁻⁵/°C | 12 | 12 |
Electric strength (3mmt) | kV/mm | 24 | 19 |
Volume resistivity | Ω·cm | 1E+14 | 1×10¹² |
Surface resistivity | Ω | 1E+16 | 1×10¹² |
Mold Shrinkage (60×60×2mmt, Flow direction, Cavity Pressure 60 MPa) | % | 2.3 | 2.3 |
Mold Shrinkage (60×60×2mmt, Transverse direction, Cavity Pressure 60 MPa) | % | 2.1 | 2.1 |
Rockwell hardness (M-Scale) | - | 80 | 80 |
Specific wear amount (Thrust, vs C-Steel, material side, pressure 0.49MPa, 30cm/s) | ×10⁻³mm³/(N·km) | 0.65 | 0.65 |
Specific wear amount (Thrust, vs C-Steel, steel side, pressure 0.49MPa, 30cm/s) | ×10⁻³mm³/(N·km) | 0.01 | 0.01 |
Coefficient of Dynamic Friction (Thrust, vs C-Steel, pressure 0.49MPa, 30cm/s) | - | 0.46 | 0.46 |
Flammability (UL94) | - | HB | HB |
The data sheet includes both Natural and Black variants of POM material , detailing properties such as mechanical, thermal, electrical, and other relevant characteristics.
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Frequently Asked Questions about Polyoxymethylene
If you’re looking for detailed answers to your questions or if you need further clarification on product specifications, please feel free to explore our frequently asked questions section.
Q: What is POM?
A: POM which stands for Polyoxymethylene is a high performance engineering thermoplastic that is used in precision parts with high rigidity, low friction and good dimensional stability.
Q: What are the usual applications of POM?
A: Automotive industry (cars, motorcycles etc.), consumer electronics (phones, computer etc.), medical devices (syringes) as well as different industrial sectors like machinery manufacturing where products need to be tough enough so that they don’t break easily or become weak after some time.
Q: Can you machine/mold POM easily?
A: Yes it can be done since this material has relatively good machinability and moldability hence used for intricate components which require accuracy during production process.
Q: Is Polyoxymethylene recyclable?
A:Yes, POM plastic is recyclable. Many manufacturers recycle POM waste and reuse it in new products to reduce environmental impact.
Q: Why should I choose POM over other plastics?
A: The reason why people prefer using this plastic over others lies behind several factors including better mechanical strength; chemical resistance; dimensional stability which suits critical applications where maximum performance is required.
Q: What are the temperature limits for POM plastic?
A:POM can typically withstand temperatures between -40°C and 120°C, depending on its grade and application.
Q: Can POM plastic be used in food-contact applications?
A:Yes, FDA-approved grades of POM are available for food and beverage industries, ensuring safety and compliance.
Q: What are the limitations of POM plastic?
A:POM has low resistance to strong acids and alkalis, and it can experience creep under prolonged stress.