High Quality Polyethylene pipe

Technical Resources

Chemical Resistance of PE pipes

The outstanding resistance of Zezt polyethylene systems to a variety of chemical reagents, allows their use in a wide range of chemical processes.  Chemical resistance of polyethylene is due to the non-polar or paraffinic nature of the material and is a function or reagent concentration and temperature.  Some attack may occur under specific conditions, however, use of Zezt polyethylene systems provides a cost-effective solution when the behaviour of polyethylene is compared to that of alternative materials.

When PE pipe is used for water and wastewater applications, users should refer to the PIPA Industry Guideline POP201 – Resistance of Plastic Pipes and Fitting to Water and Wastewater Chemicals* which was prepared in conjunction with the Water Services Association of Australia.

For PE pipe conveying disinfected drinking water, the type and concentration of disinfectant residual in conjunction with other operating factors such as temperature and stress can potentially reduce expected service life if these factors are not considered in pipe selection.  Chorine-based disinfectants are oxidising agents.  PE resin compounds contain stabilising additives that provide resistance against the oxidative effects of these chemicals under typical operating conditions.

For chlorine and chloramine disinfected systems at temperatures up to of 21oC and maintained within the aesthetic limits of the Australian Drinking Water Guidelines*, the expected life of SDR11 PE100 and PE80 is not adversely affected.  However, where higher temperatures are coupled with more aggressive oxidative environments, PE pipe performance may be compromised.  For guidance refer to PIPA Industry Guideline POP018* or contact Zezt.

Zezt PE pipes should not be used to convey water disinfected with Chlorine Dioxide as this will deplete the antioxidant additives in the material.  For more information refer to PIPA Technical Note TN008*.

Where rubber modified LDPE blends are used for improved ESCR properties in irrigation applications, the effect of speciality chemicals may require evaluation e.g. micro-irrigation tube/dripper tube.

General Effect of Chemicals on Polyethylene Pipe

Resistant: Water, solutions of inorganic salts, weak acids, strong organic acids, strong alkaline solutions, aliphatic hydrocarbons.

Has adequate resistance: Strong acids, hydrofluoric acids, fats and oils.

Has limited resistance: Lower alcohols, esters, ketones, ethers, aromatic hydrocarbons, mineral oil.

In most cases non-resistant: Light naphtha, fuel mixture.

Completely non-resistant: Unsaturated chlorinated hydrocarbons, turpentine.

Chemicals Resistance Table for Polyethylene

Important Information

The listed data are based on results of immersion tests on specimens, in the absence of any applied stress.  In certain circumstances, where the preliminary classification indicates high or limited resistance, it may be necessary to conduct further tests to assess the behaviour of pipes and fittings under internal pressure or other stresses.

Variations in the analysis of the chemical compounds as well as in the operating conditions (pressure and temperature) can significantly modify the actual chemical resistance of the materials in comparison with this chart’s indicated value.

It should be stressed that these rating are intended only as a guide to be used for initial information on the material to be selected.  They may not cover the particular application under consideration and the effects of altered temperatures or concentrations may need to be evaluated by testing under specific conditions.  No guarantee can be given in respect of the listed data.  Vinidex reserves the right to make any modification whatsoever, based upon further research and experiences.

For resistance information on specific chemicals see Chemical Performance of PE pipes (PDF).