PE UHMW sheets PE UHMW sheets PE UHMW sheets
PE 1000 / PE-UHMW Sheets with Antistatic ESD Properties
Our Polyethylene UHMW material is designed to offer permanent antistatic properties, ensuring that electrostatic surface charges are effectively reduced. As a result, dust is not attracted, and there is no risk of electrostatic discharge.
Polyethylene PE1000 Sheets — Electrically Conductive UHMW
These sheets are an electrostatic dissipative material with a surface resistance of less than 10^5Ω, providing effective static charge dissipation and protection against electrostatic discharge. They find wide application in industries such as pharmaceuticals, automotive, electronics, and power stations.
PE 1000 / PE-UHMW Sheets – Antistatic ESD
Our UHMWPE sheets incorporate a specialized carbon black grade, which imparts them with electrostatic dissipative properties. The unique composition ensures strong electrostatic dissipation (ESD) and exceptional wear resistance, making them suitable for various applications.
These sheets cater to the evolving hygiene and safety demands of the pharmaceutical and pharmaceutical processing industry, adhering to GMP (Good Manufacturing Practice) handling requirements and compliance with the ATEX Directive 94/9/EC. They are specifically designed for applications like pill filling, drug pressing, pistons, powder dosing valves, as well as food processing and packaging applications, including sugar and flour processing linings and conveyor belt components.
Key Characteristics:
- Temperature Range: -200°C to +80°C
- Electrically conductive and highly resistant to bending and impact
- Excellent wear resistance and chemical stability
- Minimal moisture absorption
- High impact strength
- Easy to machine
- Low friction coefficient
- Antistatic (ESD) properties
Elevate your operations with our PE 1000 / PE-UHMW Sheets, offering top-notch antistatic ESD properties and a range of exceptional features to meet your industrial needs.
Mechanical Properties
| Yield stress | DIN EN ISO 527 | MPa | 22 |
| Elongation at break | DIN EN ISO 527 | % | >200 |
| Tensile modulus of elasticity | DIN EN ISO 527 | MPa | 700 |
| Notched impact strength | DIN EN ISO 179 | kJ / m2 | no break |
| Shore hardness | DIN EN ISO 868 | scale D | 63 |
Thermal Properties
| Melting temperature | ISO 11357-3 | °C | 135 |
| Thermal conductivity | DIN 52612-1 | W / (m * K) | 0,40 |
| Thermal capacity | DIN 52612 | kJ / (kg * K) | 1,90 |
| Coefficient of linear thermal expansion | DIN 53752 | 10-6 / K | 150 – 230 |
| Service temperature, long term | Average | °C | -150 … 80 |
| Service temperature, short term (max.) | Average | °C | 130 |
| Vicat softening temperature | DIN EN ISO 306, Vicat B | °C | 79 |
Electrical Properties
| Surface resistivity | DIN EN 62631-3-2 | Ω | 106 … 109 |
Other Properties
| Density | DIN EN ISO 1183-1 | g / cm3 | 0,95 |
| Water absorption | DIN EN ISO 62 | % | <0,01 |
| Flammability (Thickness 3 mm / 6 mm) | UL 94 | HB | |
| Molecular weight | – | 106 g/mol | ~ 9 |
