Haichao Yan scite author profile

A combination of reactive extrusion and followed solid-state polycondensation (SSP) was applied to modify the virgin fiber grade poly(ethylene terephthalate) (v-PET) and recycled bottle-grade PET (r-PET) for melt foaming. Pyromellitic dianhydride (PMDA) and triglycidyl isocyanurate (TGIC) were chosen as the modifiers for the reactive extrusion performed in a twin-screw extruder. For comparison, commercially available chain extender ADR JONCRYL ADR-4370-S was also used. The characterizations of the intrinsic viscosity, i.e., [g], and rheological properties whose changes were correlated to the long chain branches introduced in the molecular structure were performed on the modified PET to evaluate their chain extension extent. The results revealed that the [g] of 1.37 dL/g was obtained for PMDA modified v-PET while that of 1.15 dL/g for TGIC modified r-PET. Such difference was attributed to the different reactivity of the two chain extenders with the two types of PET. Increases in shear viscosity and storage modulus, and the high pronounced shear thinning behavior were also observed in the modified PET. Finally, the foamability of the certain modified PET was verified by the batch melt foaming experiments.

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The role of dipole structure and their interaction on the electromechanical and actuation performance of homogeneous silicone dielectric elastomers

Sun

Liu

Yan

et al. 2019

Polymer

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Largely improved electromechanical properties of thermoplastic dielectric elastomers by grafting carboxyl onto SBS through thiol–ene click chemistry

et al. 2016

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Haichao Yan

Chain extension of polyamide 6 using multifunctional chain extenders and reactive extrusion for melt foaming

Modification of poly(ethylene terephthalate) by combination of reactive extrusion and followed solid‐state polycondensation for melt foaming

The role of dipole structure and their interaction on the electromechanical and actuation performance of homogeneous silicone dielectric elastomers

Largely improved electromechanical properties of thermoplastic dielectric elastomers by grafting carboxyl onto SBS through thiol–ene click chemistry

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