Overview
ABSTRACT
Realized before the second world war, the low density radicalar polyethylene (LDPE) is based upon the principle of ethylene high pressure radicular polymerization. It was initially used in order to insulate radar cables. More recently, the linear low density polyethylene (LLDPE) has been obtained through a similar process but with the help of catalysts and essentially under low pressure. Low density polyethylene possesses a significant amount of valuable properties, notably electric ones, but also low permeability to water vapour and very good tear, shock and perforation resistance. The LLDPE stands out due to its better mechanical properties although its implementation is more complex. The LDPE and LLDPE are essentially used for the production of food packaging and industrial products, in the form of sealing foils, membranes and pipes but also for paper, cardboard and aluminium foil extrusion coating.
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Philippe Marechal: Manager - Blown & cast film technical service - Update of Sandor FÜZESSÉRY's article
INTRODUCTION
Radical low-density polyethylene (LDPE) was discovered in Great Britain by ICI just before the Second World War. It was first used to insulate radar cables. Around 1950, low-density polyethylene began to be developed on a large scale. These polyethylenes have a density of between 0.915 and 0.935 g/cm 3 and are manufactured by high-pressure ethylene polymerization processes. Ethylene polymerization then follows the mechanisms of free-radical chemistry. These low-density polyethylenes (LDPEs) are therefore sometimes also referred to as radical PEs or high-pressure PEs.
In the late 1970s, Union Carbide developed linear low-density polyethylene (LDPE) using a low-pressure process with Ziegler-Natta catalysts. The corresponding production centers offer a wider range of products than high-pressure units, producing high-density polyethylene (PE-HD) (density 0.935 to 0.970), PE-BDL (density 0.915 to 0.935) and even very low-density polyethylene, PE-tBDL.
Finally, in 1993-1994, PE-BDLs manufactured using the same low-pressure processes, but with new metallocene catalysts, came onto the market.
The various low-density polyethylenes (density from 0.860 to 0.935) are characterized by Young's modulus ranging from 10 MPa to 500 MPa, good dielectric properties, low water vapor permeability and good resistance to stress cracking.
PE-BD and PE-BDL are mainly used for packaging foodstuffs and various industrial products, as well as in cabling, geomembranes, sealing film, pipes and masterbatches.
Film applications account for around 70% of the total low-density polyethylene market in terms of tonnage. LDPE is also used for extrusion coating on paper, cardboard or aluminum foil.
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Low-density polyethylene PE-BD and PE-BDL
Bibliography
Websites
PlasticsEurope http//www.plasticseurope.org/
European Plastics Converters http//www.plasticsconverters.eu/
European Chemical Industry Council http//www.cefic.org/
Plastic division of the American Chemistry Council http//www.americanchemistry.com/s plastics/index.asp
The society of polymer science in Japan http//www.spsj.or.jp/...
Regulations
Commission Regulation (EU) n˚ 10/2011 of January 14, 2011 on plastic materials and articles intended to come into contact with foodstuffs.
Directory
LyondellBasell http://www.lyondellbasell.com/index.htm
Borealis http://www.borealisgroup.com
Ineos http://www.ineos.com
Dow Chemical...
Statistical and economic data
5 gives estimates of PE consumption in the world's major regions. Globally, the total volume of polyethylene exceeds 60 million tonnes. It is the most important plastic in terms of volume.
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