Compression Molding of Thermoplastic Polyurethane Foam Sheets with Beads Expanded by Supercritical CO2 Foaming

Expanded thermoplastic polyurethane (ETPU) beads were prepared by a supercritical CO2 foaming process and compression molded to manufacture foam sheets. The effect of the cell structure of the foamed beads on the properties of the foam sheets was studied. Higher foaming pressure resulted in a greate...

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Veröffentlicht in:	Polymers 2021-02, Vol.13 (4), p.656
Hauptverfasser:	Zhang, Tao, Lee, Seung-Jun, Yoo, Yong Hwan, Park, Kyu-Hwan, Kang, Ho-Jong
Format:	Artikel
Sprache:	eng
Schlagworte:	Beads Carbon dioxide Elongation Foaming Heat resistance High temperature Injection molding Mechanical properties Polyethylene Polymer melts Polymerization Polyurethane foam Pressure molding R&D Research & development Sheets Sintering Tensile strength Urethane thermoplastic elastomers
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creator	Zhang, Tao Lee, Seung-Jun Yoo, Yong Hwan Park, Kyu-Hwan Kang, Ho-Jong
description	Expanded thermoplastic polyurethane (ETPU) beads were prepared by a supercritical CO2 foaming process and compression molded to manufacture foam sheets. The effect of the cell structure of the foamed beads on the properties of the foam sheets was studied. Higher foaming pressure resulted in a greater number of cells and thus, smaller cell size, while increasing the foaming temperature at a fixed pressure lowered the viscosity to result in fewer cells and a larger cell size, increasing the expansion ratio of the ETPU. Although the processing window in which the cell structure of the ETPU beads can be maintained was very limited compared to that of steam chest molding, compression molding of ETPU beads to produce foam sheets was possible by controlling the compression pressure and temperature to obtain sintering of the bead surfaces. Properties of the foam sheets are influenced by the expansion ratio of the beads and the increase in the expansion ratio increased the foam resilience, decreased the hardness, and increased the tensile strength and elongation at break.
doi_str_mv	10.3390/polym13040656
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subjects	Beads Carbon dioxide Elongation Foaming Heat resistance High temperature Injection molding Mechanical properties Polyethylene Polymer melts Polymerization Polyurethane foam Pressure molding R&D Research & development Sheets Sintering Tensile strength Urethane thermoplastic elastomers
title	Compression Molding of Thermoplastic Polyurethane Foam Sheets with Beads Expanded by Supercritical CO2 Foaming
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