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Polyurethane shape memory filament yarns: Melt spinning, carbon-based reinforcement, and characterization

Judit González, Mònica Ardanuy, M. González, Rosa Rodriguez, Petar Jovanĉić

2022Textile Research Journal17 citationsDOIOpen Access PDF

Abstract

The aim of this work was to develop and characterize polyurethane-based shape memory polymer filament yarns of a suitable diameter and thermo-mechanical performance for use in tailored multi-sectorial applications. Different polymer compositions – pure shape memory polyurethane and shape memory polyurethane composites with 0.3 and 0.5 wt.% of multi-walled carbon nanotubes or carbon black as additives – were studied. Filaments were obtained using a melt spinning process that allowed the production of the permanent and temporary shape of the shape memory polyurethane filament. Two drawing speeds (20 and 32 m/min) were studied. Characterization techniques such as the tensile test, differential scanning calorimetry, and dynamic mechanical analysis were used to investigate the shape-memory effect of the filaments. Pure and additive shape memory polyurethane filament yarns of a controlled diameter were produced. The results indicated that the pure shape memory polyurethane on the temporary shape had the highest tensile strength (234 MPa). Filaments with carbon black revealed a significant strain (335%) in the permanent shape with respect to the other filaments. The melt spinning process influenced the soft segment glass transition temperature (T gs ) significantly, with a decrease in the temporary shape (first heating) as compared to the permanent shape (second and third heating). However, only the 0.5% multi-walled carbon nanotubes additive clearly influenced the filament, increasing the T gs by 10°C. The additives also influenced the shape-memory effect, obtaining an increased fixity ratio (up to 97%) with the multi-walled carbon nanotubes additive and an increased recovery ratio (up to 86%) with the carbon black additive.

Topics & Concepts

Materials sciencePolyurethaneComposite materialShape-memory alloyCarbon nanotubeProtein filamentShape-memory polymerUltimate tensile strengthSpinningCarbon blackDifferential scanning calorimetryPolymerGlass transitionTensile testingNatural rubberThermodynamicsPhysicsPolymer composites and self-healingAdvanced Sensor and Energy Harvesting MaterialsElectrospun Nanofibers in Biomedical Applications
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