| Thermoplastic Elastomer |
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For example: they can be recyclable like plastics, they are elastic and absorb shocks like thermoset rubbers do. TPE is commonly used to make suspension bushings for automotive performance applications because of its greater resistance to deformation when compared to regular rubber bushings. The principal difference between thermoset elastomers and thermoplastic elastomers is the type of Crosslink ing bond in their structures. Infact, crosslinking is a critical structural factor which contributes to impart high elastic properties. The crosslink in thermoset polymers is a Covalent Bond created during the Vulcanization process. On the other hand the crosslink in thermoplastic elastomer polymers is a weaker Dipole or Hydrogen Bond or takes place in only in one of the phases of the material(see TPE-V or TPV) . TPE materials have the potential to be Recyclable since they can be molded, extruded and reused like plastics, but they have typical elastic properties of rubbers which are not recyclable owing to their thermosetting characteristics. A family of TPE materials are the ThermoPlastic Elastomers Vulcanizates or TPE-V for short. TPE-V are biphasic materials composed by a plastic phase and a rubbery phase which is crosslinked. The rubbery phase is crosslinked by chemical covalent bonds. The morphology of these materials can be described as a continuous phase of plastic, which contributes to mechanical properties and is responsible for the property of being recyclable, and a dispersed phase of covalently crosslinked rubber which is responsible for elastic properties. Generally TPE-V can show good mechanic-elastic properties at temperatures as high as 110 °C. Some special TPE-V can guarantee good properties even at higher temperatures. EXTERNAL LINKS
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