Colour : Black /white /red/yellow/orange/blu
HDPE Sheet Thickness: 2-200 mm, 0.2-3 mm
HDPE Sheet Fromate: 1220 mm×2440mm, 1000×2000 mm
High Density Polyethylene (HDPE) sheet is extremely strong against impact, abrasion resistant, and exhibits a low coefficient of friction. The material is also moisture, stain, and odor resistant, and is FDA approved for use in the food processing industry (mainly for cutting boards). The material's durability makes it a perfect match for a variety of applications such as water tanks, chute linings, bottle/bottle cap production and numerous other industrial uses. Borated HDPE offers radiation protection in nuclear facility applications.
APPLICATIONS
Mechanically ground HDPE resins are used to rotationally mold large, complex shaped products such as fuel tanks, trash containers, dump carts, pallets, agricultural tanks, highway barriers and water and waste tanks for RVs. Additionally, HDPE sheet is often extruded with a pebble finish and is used as a cutting board in a variety of industry markets
Item | RESULT | UNIT | PARAMETER | NORM USED |
Mechanical properties | ||||
Modulus of elasticity | 1000 | MPa | In tension | DIN EN ISO 527-2 |
Modulus of elasticity | 1000 - 1400 | MPa | In flexure | DIN EN ISO 527-2 |
Tensile strength at yield | 25 | MPa | 50 mm/min | DIN EN ISO 527-2 |
Impact strength (Charpy) | 140 | Kj/m 2 | Max. 7,5j | |
Notched Impact stren. (Charpy) | No break | Kj/m 2 | Max. 7,5j | |
Ball indentation hardness | 50 | MPa | ISO 2039-1 | |
Creep rupture strength | 12,50 | MPa | After 1000 hours static load 1% elong. after 1000 hours Against steel p=0,05 N/mm 2 | |
Time yield limit | 3 | MPa | ||
Coefficient of friction | 0,29 | ------ | ||
Thermal properties | ||||
Glass transition temperature | -95 | °C | DIN 53765 | |
Crystalline melting point | 130 | °C | DIN 53765 | |
Service temperature | 90 | °C | Short term | |
Service temperature | 80 | °C | Long term | |
Thermal expansion | 13 - 15 | 10-5K-1 | DIN 53483 | |
Specific heat | 1,70 - 2,00 | J/(g+K) | ISO 22007-4:2008 | |
Thermal conductivity | 0,35 - 0,43 | W/(K+m) | ISO 22007-4:2008 | |
Heat distorsion temperature | 42 - 49 | °C | Method A | R75 |
Heat distorsion temperature | 70 - 85 | °C | Method B | R75 |