High glass-transition polyurethane-carbon black electro-active shape memory nanocomposite for aerospace systems

High glass-transition polyurethane-carbon black electro-active shape memory nanocomposite for aerospace systems

Carbon black conductive filler material, 2-40% by weight was added to specially designed polyurethane polymer to prepare shape memory polymer nanocomposites. The synthesised polyurethane (PU) has exhibited a high glass transition temperature of 85°C compared to the reported values in published liter...

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Veröffentlicht in:Materials science and technology 2019-03, Vol.35 (5), p.596-605
Hauptverfasser: Arun, D. I., Santhosh Kumar, K. S., Satheesh Kumar, B., Chakravarthy, P., Dona, Mathew, Santhosh, B.
Format: Artikel
Sprache:eng
Schlagworte:
carbon black
Electro-active shape memory polymers
nanocomposites
polyurethane
shape recovery efficiency
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Zusammenfassung:Carbon black conductive filler material, 2-40% by weight was added to specially designed polyurethane polymer to prepare shape memory polymer nanocomposites. The synthesised polyurethane (PU) has exhibited a high glass transition temperature of 85°C compared to the reported values in published literatures. The polymer was characterised for its chemical, electrical, thermal and mechanical properties. The stiffness, load-bearing capacity and electrical conductivity were observed to improve with increased carbon loading. It was found to be capable of responding to thermal as well as electrical stimuli. The shape recovery efficiency was found to be 94% for thermal and 98% for electrical stimuli which is among the highest for PU reported so far.
ISSN:0267-0836
1743-2847
DOI:10.1080/02670836.2019.1575054