- Good solubility in water
- Very low water content
- Compatible with hard water
- Outstanding toxicological safety
- Good biodegradability
SafetyPEG are non-toxic and physiologically safe so no special safety precautions need to be taken when handling them. For many applications, particularly in pharmaceuticals, cosmetics and foodstuffs packging, the physiological safety of PEG is important. When administered orally and cutaneously they are to be rated as non-toxic. The vapour pressure of PEG is so low that inhalation of relevant amounts is impossible. Because of their good physiological tolerability PEG were first included in the US pharmacopoeia already in 1950. Since then they have been listed in numerous pharmacopoeias. The tolerability of PEG in animals improves as the degree of polymerization rises. PEG have no toxic or irritant effect on the skin. Because of low toxicity it was not possible to establish an exact LD50 resulting from skin penetration.
The behavior of PEG in effluent is a matter of crucial importance, e.g. in their industrial use in the textile sector and in metal processing. The rate of biodegradation of PEG decreases with increasing molar mass. PEG up to molar mass 1500 are regarded as readily biodegrad able (Zahn-Wellens test). The microbiological degradation of other substances is not inhibited by the presence of PEG. The toxic inhibition limit for bacteria in the fermentation tube test is 5000 mg/l. Investigations within our own labs have shown that even in concentrations of 10000 mg/kg (1%) polyethylene glycols have no adverse effect on fish (crucian carp). Polyethylene glycols in concentration up to 10000 mg/l exhibit no harmful effect of any kind towards daphnia and protozoa. The German water hazard class is WGK 1.
Any PEG to be disposed of waste can be taken, in accordance with the local regulations, to a special waste incineration plant. None of PEG, in concentrations up to 10,000 mg/l water, demonstrates an acute harmful effect on fish or bacteria. PEG with molar masses of 200 to 1500 have good biodegradability. It is therefore possible to take them to a biological sewage treatment plant after consulting the operator provided the water and waste regulations permit.
|Hazen Colour 25% a.i.in water||
|Molecular Mass [g/mol]||
|OH value [mg koh/g]||
|Solidification point [°C]||
-15 - -10
|Viscosity at 20°C [mPa·s]||
|Viscosity at 98.8°C=270°F [mm²/s]||
|PH 5% aqueous solution||
|Water content [% M/M]||
|Density at 20°C [g/cm³]||
|Vapour pressure at 20°C [hPa]||
|Solubility in Water at 20°C [% M/M]||
ApplicationsPolyglykol 300 can be used in liquid pharmaceutical preparations such as drops or fillings for gelatin capsules. It can also be used in ointment mixtures for example in combination with Polyglykol 1500.
Polyglykol 300 is listed as active ingredient in ophthalmic demulcents.
It is also used in toothpastes where it improves consistency and storage stability. It acts as a moisturizer in antiperspirants, shampoos and liquid soaps, hair styling products and bar soap.
Polyglykol 300 can also be used in bath oils and foam baths to assist the solubilizing action of the active substances for perfume oils.
It is used as a humectant in waterborne pigment preparations, and as a solvent and humectant in automatic dish-washing products.
StoragePEG 300 is stable for 2 years when stored in the original sealed containers in a cool, dry place.
Furthermore the containers should not be exposed to direct sun light. Ambient temperatures for long term storage are preferably between 10°C and 25°C and between 0°C and 30°C as maximum. Storage at higher temperatures is possible only for a short time and should be kept below the solidification point of the products.
It is essential to ensure storage in a dry place because liquid PEG are hygroscopic. Each time the containers are opened, they should be resealed to make them airtight. Even with sealed laboratory containers it is impossible to prevent atmospheric oxygen and moisture acting on PEG 300 owing to frequent opening. We therefore recommend that laboratory samples should also not be stored longer than 2 years.
The most suitable material for storage tanks is stainless steel, pure aluminium, rubber-or polyethylenelined containers and storage tanks made from glass-fibre-reinforced polyester (GRP). The tank should be ventilated by means of a silica gel dryer. Conventional steel tanks are of limited suitability because after prolonged storage the product may become discoloured owing to traces of iron.
The recommended method of storing PEG 300 is in stainless steel or aluminium containers fitted with an external, heating coil. The storage temperature should not exceed 70°C, and it is advisable to thoroughly mix the contents of the storage container with a dry nitrogen stream or a circulating pump.