High-Performance Pom Rods, Revolutionize Your Projects

2 month ago

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SHENZHEN XIONGYIHUA PLASTIC INSULATION LTD

10 year

Product details

Product Composition

The main component of POM sheets and POM rods is polyoxymethylene (POM), also known as "Delrin." POM is a crystalline plastic with a high-density, non-side-chain, and highly crystalline linear polymer structure, which gives it excellent comprehensive properties.

Product Specifications

POM Sheet

Size: 600X1220mm and 1000x2000mm(can help cut into your size),

Thickness:1mm to 150mm.

Color: White/Black (Or colorful)

POM Rod

Diameter:OD10mm to OD250mm

Length:1000mm

Color: White/Black (Or colorful)

Performance Characteristics

Physical Properties: POM sheets and POM rods have a smooth and glossy surface, appearing hard and dense. They are generally white or yellowish, with high crystallinity, good colorability, and excellent dimensional stability, along with minimal water absorption.

Mechanical Properties: POM sheets and POM rods exhibit high hardness and rigidity, excellent wear resistance, self-lubricating properties, and creep resistance. This allows them to withstand high loads and repeated impacts without deformation.

Thermal Properties: POM sheets and POM rods have a high heat distortion temperature and can be used continuously within a temperature range of -40°C to 104°C.

Electrical Properties: POM sheets and POM rods maintain stable dielectric loss and dielectric constant within a wide frequency and temperature range, along with good arc resistance.

Chemical Properties: POM sheets and POM rods exhibit good resistance to solvents, oils, weak acids, and weak bases.

Advantages

High mechanical strength, rigidity, and hardness, along with excellent elasticity, sliding properties, and wear resistance.

Good creep resistance, even at low temperatures, and high impact strength.

Excellent dimensional stability and mechanical properties.

Physiologically inert, suitable for contact with food.

Good electrical properties and environmental resistance, as well as solvent resistance.

Good resilience.

Application Fields

POM sheets and POM rods have extensive applications in the automotive, electronics, machinery, and medical industries. Specifically:

Automotive Industry: POM material is widely used in automobile manufacturing, mainly for interior parts, transmission systems, fuel systems, and seat adjustment mechanisms. Its excellent wear resistance and corrosion resistance make it an ideal choice for automotive components.

Electronics: POM material finds extensive applications in the electronics industry, such as electrical switches, sockets, insulators, and electronic connectors. Its good electrical and mechanical properties meet the requirements of electronic products for material performance.

Mechanical Engineering: POM material is widely used in the mechanical field for manufacturing gears, bearings, sliding bushings, and transmission chains. Its low friction coefficient and self-lubricating properties reduce energy loss and friction wear in mechanical devices.

Medical Equipment: POM material is extensively used in the manufacture of medical equipment, such as surgical instruments, syringes, infusion sets, and artificial joints. Its chemical stability and biocompatibility make it one of the commonly used materials in the medical field.

Our company is deeply engaged in the field of high-performance engineering plastics and insulation materials, and is committed to providing innovative material solutions for the global high-end manufacturing industry. Our main products include high-end engineering plastic sheets/rods such as polyoxymethylene (POM), ABS, nylon (PA), polycarbonate (PC), polyphenylene sulfide (PPS), polyetherimide (PEI), polyetheretherketone (PEEK), etc. We also provide special insulation materials such as bakelite (phenolic laminate) and epoxy glass fiber board. With excellent properties such as high temperature resistance, wear resistance, and high strength, our products are widely used in new energy vehicles, smart electronics, industrial machinery, aerospace and other fields.

FAQ

1. Q: What are the advantages of POM rod compared to nylon rod?

A: POM rod offers better wear resistance, fatigue resistance, and self-lubrication, and is low-density and lightweight. Nylon rod offers high-temperature resistance and excellent insulation, but POM rod offers a better overall performance in common applications in industries like machinery manufacturing and automotive. For parts like bearings and gears, POM rod better meets the performance requirements.

2. Q: How should I choose between white POM rod and black sapphire rod?

A: If good self-lubrication and a low coefficient of friction are required, while cost is a concern, white POM rod is the preferred option. It is suitable for manufacturing precision gears and sliding parts. For parts subject to heavy loads and prolonged wear, such as heavy machinery parts, black sapphire rod (reinforced nylon rod) is more suitable due to its high strength and wear resistance.

3. Q: What are the advantages of POM rod over ordinary plastic rod?

A: POM rods offer high mechanical strength, rigidity, and hardness, as well as excellent sliding, wear, and creep resistance. Ordinary plastic rods struggle to achieve these properties. However, POM rods far surpass ordinary plastic rods in the manufacture of precision parts and components subject to certain pressures and friction.

4. Q: What are the key advantages of POM rods compared to metal rods?

A: POM rods have low density, are lighter, and are self-lubricating, reducing friction losses. This makes them particularly advantageous in weight-sensitive applications requiring minimal maintenance, such as small precision machinery and electronic equipment. Furthermore, POM rods offer excellent insulation properties and can be used in areas requiring insulation, which metal rods lack.

5. Q: How does POM rod compare to other engineering plastic rods in terms of processability?

A: POM rods offer excellent processability and are easy to form and process. They can be formed into desired shapes through various methods, such as turning and drilling. Compared with some engineering plastic rods, it has less demanding requirements on equipment during processing, has good dimensional stability during processing, and has a low scrap rate, which can effectively reduce processing costs and time.