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High-density polyethylene

From Wikipedia, the free encyclopedia

High-density polyethylene (HDPE) or polyethylene high-density (PEHD) is a thermoplastic polymer produced from the monomer ethylene. It is sometimes called "alkathene" or "polythene" when used for HDPE pipes.[1] With a high strength-to-density ratio, HDPE is used in the production of plastic bottles, corrosion-resistant piping, geomembranes and plastic lumber. HDPE is commonly recycled, and has the number "2" as its resin identification code.

In 2007, the global HDPE market reached a volume of more than 30 million tons.[2]


Thermophysical properties of high density polyethylene (HDPE)[3]
Density 940 kg/m3
Melting point 130.8 °C.
Temperature of crystallization 111.9 °C.
Latent heat of fusion 178.6 kJ/kg.
Thermal conductivity 0.44 W/m.°C. at °C.
Specific heat capacity 1330 to 2400 J/kg-K
Specific heat (solid) 1.9 kJ/kg. °C.
Crystallinity 60%

HDPE is known for its high strength-to-density ratio.[4] The density of HDPE can range from 930 to 970 kg/m3.[5] Although the density of HDPE is only marginally higher than that of low-density polyethylene, HDPE has little branching, giving it stronger intermolecular forces and tensile strength (38 MPa versus 21 MPa) than LDPE.[6] The difference in strength exceeds the difference in density, giving HDPE a higher specific strength.[7] It is also harder and more opaque and can withstand somewhat higher temperatures (120 °C/248 °F for short periods). High-density polyethylene, unlike polypropylene, cannot withstand normally required autoclaving conditions. The lack of branching is ensured by an appropriate choice of catalyst (e.g., Ziegler–Natta catalysts) and reaction conditions.

HDPE is resistant to many different solvents so it cannot be glued. Pipe joints must be made by welding.

The physical properties of HDPE can vary depending on the molding process that is used to manufacture a specific sample; to some degree a determining factor are the international standardized testing methods employed to identify these properties for a specific process. For example, in rotational molding, to identify the environmental stress crack resistance of a sample, the notched constant tensile load test (NCTL) is put to use.[8]

Owing to these desirable properties, pipes constructed out of HDPE are ideally applicable for drinking water,[9] and waste water (storm and sewage).[10]


HDPE has a wide variety of applications; for applications that fall within the properties of other polymers, the choice to use HDPE is usually economic:

HDPE sheet which has been extrusion welded
HDPE sheet which has been extrusion welded

HDPE is also used for cell liners in subtitle D sanitary landfills, wherein large sheets of HDPE are either extrusion welded or wedge welded to form a homogeneous chemical-resistant barrier, with the intention of preventing the pollution of soil and groundwater by the liquid constituents of solid waste.

HDPE is preferred by the pyrotechnics trade for mortars over steel or PVC tubes, being more durable and safer: HDPE tends to rip or tear in a malfunction instead of shattering and becoming shrapnel like the other materials.

Milk bottles, jugs, and other hollow goods manufactured through blow molding are the most important application area for HDPE, accounting for one-third of worldwide production, or more than 8 million tonnes.

Above all, China, where beverage bottles made from HDPE were first imported in 2005, is a growing market for rigid HDPE packaging, as a result of its improving standard of living. In India and other highly populated, emerging nations, infrastructure expansion includes the deployment of pipes and cable insulation made from HDPE.[2] The material has benefited from discussions about possible health and environmental problems caused by PVC and polycarbonate associated bisphenol A (BPA), as well as its advantages over glass, metal, and cardboard.

See also


  1. ^ Pipe materials.
  2. ^ a b "Market Study: Polyethylene HDPE". Ceresana Research.
  3. ^ Thakare, Kavendra A.; Vishwakarma, Honeykumar G.; Bhave, A. G. (December 2015). "Experimental Investigation Of Possible Use Of Hdpe As Thermal Storage Material In Thermal Storage Type Solar Cookers" (pdf). International Journal of Research in Engineering and Technology. Bangalore, India: IJRET/Sun Publications. 04 (12). ISSN 2319-1163. Archived (PDF) from the original on October 30, 2019. Retrieved October 31, 2019.
  4. ^ Thermoforming HDPE Archived 2012-02-05 at the Wayback Machine.
  5. ^ Typical Properties of Polyethylene (PE). Retrieved on 2011-12-30.
  6. ^ Askeland, Donald R. (2016). The science and engineering of materials. Wendelin J. Wright (7 ed.). Boston, MA. p. 594. ISBN 978-1-305-07676-1. OCLC 903959750.
  7. ^ Compare Materials: HDPE and LDPE. Retrieved on 2011-12-30.
  8. ^ Retrieved 2016-4-20.
  9. ^ a b c "Acu-Water | HDPE Blueline Water Pipe". Acu-Tech Piping Systems.
  10. ^ a b "Acu-Sewer Pressure Pipe for Sewer Mains". Acu-Tech Piping Systems.
  11. ^ "Puck Board (HDPE Sheets)". Professional Plastics. Retrieved 24 December 2018.
  12. ^ AstroRad. European Space Agency. 25 January 2019.
  13. ^ Gaza, Razvan. "International Science Aboard Orion EM-1: The Matroshka AstroRad Radiation Experiment (MARE) Payload" (PDF). Retrieved 27 August 2019.
  14. ^ "Acu-Gas Yellow High Pressure HDPE Pipe". Acu-Tech Piping Systems.
  15. ^ (2011-07-01). Retrieved on 2011-12-30.
  16. ^ "Acu-Comms White Communications Conduit". Acu-Tech Piping Systems.
This page was last edited on 3 April 2021, at 09:12
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