HDPE has a low degree of branching and thus stronger intermolecular forces and tensile strength. HDPE can be produced by chromium/silica catalysts, Ziegler-Natta catalysts or metallocene catalysts. The lack of branching is ensured by an appropriate choice of catalyst (e.g. Chromium catalysts or Ziegler-Natta catalysts and reaction conditions.
Weight |
N/A 3.010 lb/ft |
Density (ASTM D792) |
N/A 59.88 lb/ft³ |
Hardness - Durometer - Shore D (ASTM D2240) |
N/A 67 |
Tensile Strength at Break (ASTM D638) |
N/A 4423 psi |
Tensile Modulus (ASTM D638) |
N/A 224812 psi |
Elongation - Yield (ASTM D638) |
N/A 18 % |
Tensile Elongation, Break |
N/A 1350 % |
Flexural Modulus |
N/A 166796 psi |
Izod Impact |
N/A 1.3 ft·lb/in |
Izod Impact Strength - Notched at 73ºF (ASTM D256) |
N/A 3 ft·lb/in |
Tensile Impact Strength (DIN 53448) |
N/A 570 ft·lb/in² |
Coefficient of Linear Thermal Expansion |
N/A 6.7 x 10-5 in/in/ºF |
Maximum Operating Temperature |
N/A 180 ºF |
Volume Resistivity (ASTM D257) |
N/A > 1015 ohm·cm |
Standard Length |
N/A 10 ft4 ft8 ft |