Thermosetting polymer

The curing process transforms the resin into a plastic or rubber by a cross-linking process. Energy and/or catalysts are added that cause the molecular chains to react at chemically active sites (unsaturated or epoxy sites, for example), linking into a rigid, 3-D structure. The cross-linking forms a molecule with a larger molecular weight, resulting in a material with a higher melting point. During the reaction, the polymer's molecular weight increases to the point that its melting point is higher than the surrounding ambient temperature. So, the material forms into a solid material.

Uncontrolled reheating of the material results in reaching the decomposition temperature before the melting point is reached. So, a thermoset material cannot be melted and re-shaped after it is cured. This implies that thermosets cannot be recycled, except as filler material.^[1]

Thermoset materials are generally stronger than thermoplastic materials due to this three dimensional network of bonds (cross-linking). Thermoset materials are also better suited to high-temperature applications up to the decomposition temperature. However, they are more brittle. Many thermosetting polymers are difficult to recycle.

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  Left: individual linear polymer chainsRight: Polymer chains which have been cross linked to give a rigid 3D thermoset polymer

• Vulcanization
• Fusion bonded epoxy coating
• Thermoplastic