Polyetheretherketone (PEEK) is a high temperature thermoplastic that offers a unique combination of exceptional performance characteristics. PEEK materials were initially made in 1977 by imperial Chemical Industries (ICI)
As shown in the table below, there are several polymers in the family of Polyaryletherketones (PAEK) and amongst them, polyetheretherketone (PEEK) is both most widely used and also manufactured in large scale.
Tg°C- Glass transition- the temperature at which, when an amorphous polymer is cooled below, it will become brittle and glass like.
Tm°C- Melting – is a transition that occurs in crystalline polymers where the chains become a disordered liquid.
As evident from the chemical structure, PEEK contains relatively stiff aromatic polymer backbone and remains a reason for high thermal transitions. As a result, these polymers have a ‘continuous use temperature’ of around 240°C, even in hot water or steam. It possesses very good mechanical properties and outstanding chemical resistance, equivalent to Fluoropolymers.
The presence of either linkage gives the melt processability in conventional techniques such as injection moulding, compression moulding and extrusion. The rigid and stiff chemical structure affects the crystallisability of PEEK and allows up to 48% maximum achievable crystallinity.
Achieving UL94 V0 classifications, Ohio State University heat release test, and extremely low smoke emission, makes PEEK one of the best materials with flame resistance characteristics. The softening temperatures of unfilled PEEK are around the same Tg but after filling with glass fibre or carbon fibre, the softening temperature increases significantly reaching close to the melting the point, i.e. around 315-320°C.
PEEK is fully recyclable, either mechanically or as feedstock. Energy from waste can be recovered at incineration plants.
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PEEK has been successfully used as a replacement material for bearing cages for many years. In addition to its high performance characteristics it offers weight reduction along with cost savings compared to traditional bearing cage materials such as brass and aluminium.
Used in hostile environments, PEEK is a high strength alternative to ferrous materials. It exhibits very low smoke and toxic gas emissions whilst carrying a V-0 flammability rating.
High-Performance Plastic are distinguished primarily by their temperature stability, but also their mechanical properties.
High-Performance Plastic, High-Temperature Plastic, High-Performance Thermoplastic, High-Performance Polymer…However you refer to this range of materials, what makes them different to other types of plastic?