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Influence of TPU/EVA Phase Morphology Evolution on Supercritical Carbon Dioxide Extrusion Foaming

Junwei Du, Tiantian Zhou, Rong Zhang, Shengfei Hu

2023Polymers14 citationsDOIOpen Access PDF

Abstract

Ethylene-vinyl acetate copolymer (EVA) was added at different contents to the thermoplastic polyurethane (TPU) matrix to form a non-compatible blending system, and foaming materials with high pore density were prepared using the supercritical carbon dioxide extrusion method. The influence of the phase morphology and crystal morphology of the TPU/EVA blend on its foaming behavior was studied. The results show that EVA changed the phase morphology and crystal morphology of the blends, leading to the improved melt viscosity and crystallinity of the blend system. At the same time, interfacial nucleation increases the density of cells and decreases the cell thickness and size, which is beneficial for improving the foaming properties of the blends. For the EVA content of 10% (mass fraction), the cell size is small (105.29 μm) and the cell density is the highest (3.74 × 106 cells/cm3). Based on the TPU/EVA phase morphology and crystal morphology, it is found that the sea-island structure of the blend has better foaming properties than the bicontinuous structure.

Topics & Concepts

Materials scienceSupercritical carbon dioxideCrystallinityMorphology (biology)NucleationSupercritical fluidExtrusionThermoplastic polyurethaneEthylene-vinyl acetateComposite materialPhase (matter)CopolymerChemical engineeringCrystal (programming language)ThermoplasticPolymerElastomerOrganic chemistryChemistryProgramming languageGeneticsBiologyEngineeringComputer sciencePolymer Foaming and CompositesPolymer composites and self-healingCarbon dioxide utilization in catalysis
Influence of TPU/EVA Phase Morphology Evolution on Supercritical Carbon Dioxide Extrusion Foaming | Litcius