Polyetheretherketone can be used at very high temperatures (about +260°C)

The linear polyphenylensulfide belongs to the semi-crystalline materials

Polyetherimide has a high mechanical strength in connection with a good chemical and heat resistance

Polysulfone shows great thermal stability (from- 100°C to +160°C).

Polyvinylidene fluoride shows a higher tensile strength, pressure resistance and dimensional stability than the related PTFE.

Polycarbonate shows a high rigidity and an extreme impact strength.

Polyethylene terephthalate shows high tensile and mechanical strength, hardness
and toughness, low friction and a high dimensional stability.

Polyoxymethylene can be used in temperatures up to +100°C.

The 30% glass fibre reinforced PA 6.6 has an improved dimensional stability.

Polyamide with the highest hardness, rigidity, a good resistance to wear and heat deflection temperature.

Very tough (also in cold condition), High Hardness.

Polyamide shows both a high thermostability (temperature resistant from -40°C to approx. +100°C).

Polymethylmethacrylate is refactory and shows a good mechanical strength, tensile strength and hardness.

Acrylnitrile butadiene Styrene copolymer has a good thermal and dimensional stability and high impact strength (also at low temperature).

Polypropylene shows a high mechanical strength and a tensile strength, but a low notched impact strength.

The ultra high molecular weight Polyethylene has a high abraison resistance (very good glide characteristics) and a high toughness at the same time.

Polyethylene has a good chemical resistance against almost all acids and bases, detergents and hot water. PE has good insulation properties and is easy to weld.

Polyvinyl chloride is a flame retardant material with an exceptional chemical resistance and also with lower stress cracking.