Engineering plastics represent a range of thermoplastics that are capable of operating continuously at temperatures ranging from 100°C to 150°C, making them exceptionally versatile for use in multiple applications.

Engineering plastics offer superior mechanical properties, including high tensile, bending, and compression strength. One of the significant benefits of engineering plastics is their high dimensional stability. Unlike other materials, they can resist deformation under load, ensuring they maintain their shape and size even under extreme conditions. This is especially useful in precision applications where tolerances are critical.

In addition, engineering plastics exhibit notable resistance to the attack of certain chemicals. This means they can resist corrosion and wear in aggressive chemical environments, making them suitable for use in a variety of industrial sectors, including the chemical, oil, and gas industry.

The wear resistance of these plastics is also a key feature. Unlike softer materials that can wear out over time, engineering plastics are capable of resisting abrasion and continuous wear, extending the lifespan of components and systems manufactured with these materials.

In conclusion, engineering plastics combine thermal resistance, superior mechanical properties, dimensional stability, chemical resistance, and wear resistance, making them a natural choice for a myriad of applications.

1. ESD Acetal for templates: Abrasion-resistant engineering plastic material with electrostatic dissipation capability. With its antifrictional and antistatic properties, this material is ideal for use in electrostatically controlled environments.

Common uses: Production templates, antistatic components.

2. Acetal, Delrin: A high-strength, precision, and stiffness thermoplastic. With unmatched resistance to wear and moisture, as well as low friction, Delrin is ideal for precision parts and high mechanical demand applications.

Common uses: Gears, bearings, precision components.

3. Acrylic: A thermoplastic with exceptional impact resistance, high transparency, and UV resistance. With ease of work and excellent weather resistance, acrylic is commonly used in signage and display applications.

Common uses: Signage, showcases, furniture.

4. Conductive corrugated // Coroplast: A strong and lightweight material with high conductivity. Coroplast is ideal for applications requiring protection against static electricity and moisture resistance.

Common uses: ESD containers, packaging, and transportation of electronic components.

5. Conductive EVA: An ethylene and vinyl acetate copolymer with exceptional impact resistance and flexibility. Conductive EVA is suitable for applications requiring resistance to deformation, wear, and static electricity.

Common uses: Packaging, home appliance components, footwear.

6. Solid or cellular polycarbonate // Makrolon, Lexan: A heat-resistant and transparent thermoplastic. With high durability over a wide range of temperatures and impact resistance, Makrolon and Lexan are ideal for applications requiring fire resistance.

Common uses: Roofs, cladding, safety windows.

7. Polyethylene // HDPE, UHMW, PE: Versatile thermoplastic with low friction and high chemical resistance. Polyethylene is easy to work with and impact resistant, making it ideal for a variety of applications.

Common uses: Machinery components, packaging, food containers.

8. Foamed PVC // Trovicel: This type of water-resistant PVC is lightweight and durable, offering thermal and acoustic insulation. Trovicel is ideal for signage and insulation applications in construction.

Common uses: Signage, insulation in construction, wall panels.


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