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Hepla® POM(Copolymerization)

Hepla® POM is a high crystallinity thermoplastic engineering plastic with excellent properties such as abrasion resistance, long-term fatigue resistance, high toughness, creep resistance, moisture resistance, solvent resistance and alkali resistance. Its comprehensive properties and ease of processing determine its advantages in material properties and processing costs. Hepla® POM materials maintain high strength and high stiffness over a wide temperature range. Hepla® POM series materials also have excellent dimensional stability, chemical resistance and fuel resistance including high formaldehyde content. Hepla® POM series materials are widely used in injection molding, but they are also suitable for other traditional processing techniques such as extrusion, compression molding, rotational molding and blow molding.

 

 

Highlights and Limitations
 

Highlights:
1. wear resistance

2. Toughness
3. anti-creep, fatigue characteristics
4. moisture resistance, chemical resistance
5. dimensional stability
limitation:
1. a higher proportion
2. processing is more difficult



 

Hepla® POM (copolymer) performance comparison of different grades

The comprehensive properties of the Hepla® POM (co) series of materials allow it to be stable in a wide range of applications and are one of the most widely used engineering plastics.
 
In general, Hepla® POM (copolymerization) is modified to enhance material properties, allowing it to be used in more complex environments. The following figure shows the performance comparison of Hepla® POM (co) material base resin after adding 15%, 20%, 30%, 40% carbon fiber modification.







OVERVIEW

Available materials:Total 98
Available Area:America, Asia, Africa, Europe
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Hepla® POM(Copolymerization)

Hepla® POM is a high crystallinity thermoplastic engineering plastic with excellent properties such as abrasion resistance, long-term fatigue resistance, high toughness, creep resistance, moisture resistance, solvent resistance and alkali resistance.
TYPE
DESCRIPTION
BASE MATERIAL
TECHNICAL DATA
ROHS
REACH
MSDS
Electrically Conductive
Hepla® POM(Copolymerization)
Antistatic
Hepla® POM(Copolymerization)
FDA
Hepla® POM(Copolymerization)
Silicone
Hepla® POM(Copolymerization)
Carbon Nanotube
Hepla® POM(Copolymerization)
Carbon Nanotube - Electrically Conductive
Hepla® POM(Copolymerization)
PTFE 2% - UV Stabilized
Hepla® POM(Copolymerization)
Molybdenum Disulfide 3%
Hepla® POM(Copolymerization)
Aramid Fiber 5% - PTFE 10%
Hepla® POM(Copolymerization)
Aramid Fiber 5% - PTFE 10% - Silicone 3%
Hepla® POM(Copolymerization)
Aramid Fiber 5% - PTFE 20%
Hepla® POM(Copolymerization)
Molybdenum Disulfide 5%
Hepla® POM(Copolymerization)
Silicone 5%
Hepla® POM(Copolymerization)
PTFE 5%
Hepla® POM(Copolymerization)
PTFE 5% - Antistatic
Hepla® POM(Copolymerization)
PTFE 5% - FDA
Hepla® POM(Copolymerization)
PTFE 5% - Silicone 2%
Hepla® POM(Copolymerization)
Aramid Fiber 10%
Hepla® POM(Copolymerization)
Aramid Fiber 10% - PTFE 5%
Hepla® POM(Copolymerization)
Aramid Fiber 10% - PTFE 10%
Hepla® POM(Copolymerization)
Aramid Fiber 10% - PTFE 10% - Silicone 2%
Hepla® POM(Copolymerization)
Aramid Fiber 10% - PTFE 15%
Hepla® POM(Copolymerization)
Aramid Fiber 10% - PTFE 20%
Hepla® POM(Copolymerization)
Carbon Fiber 10%
Hepla® POM(Copolymerization)
Carbon Fiber 10% - Electromagnetic Shielding
Hepla® POM(Copolymerization)
Carbon Fiber 10% - Electrically Conductive
Hepla® POM(Copolymerization)
Carbon Fiber 10% - PTFE 10%
Hepla® POM(Copolymerization)
Carbon Fiber 10% - PTFE 10% - Silicone 2%
Hepla® POM(Copolymerization)
Carbon Fiber 10% - PTFE 15%
Hepla® POM(Copolymerization)
Carbon Fiber 10% - PTFE 15% - Silicone 2%
Hepla® POM(Copolymerization)
Glass Bead 10%
Hepla® POM(Copolymerization)
Glass Bead 10% - PTFE 15%
Hepla® POM(Copolymerization)
Glass Fiber 10%
Hepla® POM(Copolymerization)
Glass Fiber 10% - Antistatic
Hepla® POM(Copolymerization)
Glass Fiber 10% - Silicone 2%
Hepla® POM(Copolymerization)
Glass Fiber 10% - PTFE 10%
Hepla® POM(Copolymerization)
Glass Fiber 10% - PTFE 15%
Hepla® POM(Copolymerization)
Glass Fiber 10% - PTFE 10% - Silicone 2%
Hepla® POM(Copolymerization)
Stainless Steel Fiber 10% - Electromagnetic Shielding
Hepla® POM(Copolymerization)
PTFE 10% - FDA
Hepla® POM(Copolymerization)
PTFE 10% - Antistatic
Hepla® POM(Copolymerization)
PTFE 10% - Silicone 2%
Hepla® POM(Copolymerization)
Stainless Steel Fiber 13% - Electromagnetic Shielding
Hepla® POM(Copolymerization)
PTFE 13% - Silicone 2%
Hepla® POM(Copolymerization)
Aramid Fiber 15%
Hepla® POM(Copolymerization)
Aramid Fiber 15% - PTFE 10%
Hepla® POM(Copolymerization)
Aramid Fiber 15% - PTFE 13% - Silicone 2%
Hepla® POM(Copolymerization)
Aramid Fiber 15% - PTFE 15%
Hepla® POM(Copolymerization)
Aramid Fiber 15% - PTFE 20% - UV Stabilized
Hepla® POM(Copolymerization)
Carbon Fiber 15%
Hepla® POM(Copolymerization)
Carbon Fiber 15% - PTFE 10% - Silicone 2%
Hepla® POM(Copolymerization)
Carbon Fiber 15% - PTFE 15%
Hepla® POM(Copolymerization)
Glass Bead 15%
Hepla® POM(Copolymerization)
Glass Fiber 15%
Hepla® POM(Copolymerization)
Glass Fiber 15% - Antistatic
Hepla® POM(Copolymerization)
Glass Fiber 15% - Silicone 2%
Hepla® POM(Copolymerization)
Glass Fiber 15% - Glass Bead 10%
Hepla® POM(Copolymerization)
Glass Fiber 15% - PTFE 10%
Hepla® POM(Copolymerization)
Glass Fiber 15% - PTFE 15%
Hepla® POM(Copolymerization)
Glass Fiber 15% - Glass Bead 20%
Hepla® POM(Copolymerization)
Stainless Steel Fiber 15% - Electromagnetic Shielding
Hepla® POM(Copolymerization)
PTFE 15% - Silicone 2%
Hepla® POM(Copolymerization)
PTFE 15% - Carbon Fiber
Hepla® POM(Copolymerization)
PTFE 18% - Silicone 2%
Hepla® POM(Copolymerization)
Carbon Fiber 20%
Hepla® POM(Copolymerization)
Carbon Fiber 20% - PTFE 15%
Hepla® POM(Copolymerization)
Carbon Fiber 20% - PTFE 20%
Hepla® POM(Copolymerization)
Glass Bead 20%
Hepla® POM(Copolymerization)
Glass Bead 20% - PTFE 15%
Hepla® POM(Copolymerization)
Glass Fiber 20%
Hepla® POM(Copolymerization)
Glass Fiber 20% - Antistatic
Hepla® POM(Copolymerization)
Glass Fiber 20% - UV Stabilized
Hepla® POM(Copolymerization)
Glass Fiber 20% - PTFE 10%
Hepla® POM(Copolymerization)
Glass Fiber 20% - PTFE 15%
Hepla® POM(Copolymerization)
Glass Fiber 20% - Glass Bead 20% - PTFE 15%
Hepla® POM(Copolymerization)
Milled Glass Fiber 20% - PTFE 15%
Hepla® POM(Copolymerization)
PTFE 20% - UV Stabilized
Hepla® POM(Copolymerization)
PTFE 20% - Silicone 2%
Hepla® POM(Copolymerization)
Glass Bead 25%
Hepla® POM(Copolymerization)
Glass Fiber 25%
Hepla® POM(Copolymerization)
Glass Fiber 25% - Silicone 2%
Hepla® POM(Copolymerization)
Glass Fiber 25% - PTFE 10%
Hepla® POM(Copolymerization)
Glass Fiber 25% - PTFE 13% - Silicone 2%
Hepla® POM(Copolymerization)
Glass Fiber 25% - PTFE 15%
Hepla® POM(Copolymerization)
Carbon Fiber 30%
Hepla® POM(Copolymerization)
Carbon Fiber 30% - Silicone 2%
Hepla® POM(Copolymerization)
Carbon Fiber 30% - PTFE 13% - Silicone 2%
Hepla® POM(Copolymerization)
Glass Bead 30%
Hepla® POM(Copolymerization)
Glass Bead 30% - PTFE 10%
Hepla® POM(Copolymerization)
Glass Fiber 30%
Hepla® POM(Copolymerization)
Glass Fiber 30% - Electrically Conductive
Hepla® POM(Copolymerization)
Glass Fiber 30% - Silicone 2%
Hepla® POM(Copolymerization)
Glass Fiber 30% - PTFE 5% - Silicone 2%
Hepla® POM(Copolymerization)
Glass Fiber 30% - PTFE 13% - Silicone 2%
Hepla® POM(Copolymerization)
Glass Fiber 30% - PTFE 15% - UV Stabilized
Hepla® POM(Copolymerization)
Carbon Fiber 40%
Hepla® POM(Copolymerization)
Glass Fiber 40%
Hepla® POM(Copolymerization)
Glass Fiber 40% - PTFE 15%
Hepla® POM(Copolymerization)

NFD ADVANCED COMPOSITES

公司/COMPANY

NFD can provide customized services to meet our customers’ differentiated demands by modifying these materials’ properties. The custom-tailored properties cover structural enhancement, electric conduction and electronic screening, flame retardancy, self-lubrication and wear resistance, long (short) carbon fiber reinforcement, long (short) glass fiber reinforcement(LFT), high specific gravity, low specific gravity, medical level quality, heat resistance, toughness, thermal conduction and electric insulation, electric and thermal conduction, laser marking, and magnetic detection. We can also provide nano-plastics, spraying-free plastics and special coloring services. And NFD will continue to honor our words by creating values for our customers with unique products and services.

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