Add to ORKGThis study presents an effective approach to significantly improve the electrical properties of shape memory polymer (SMP) nanocomposites that show Joule heating triggered shape recovery. Carbon nanofibers (CNFs) were self-assembled to form multi-layered nanopaper to enhance the bonding and shape recovery behavior of SMP, respectively. It was found that both glass transition temperature (Tg) and electrical properties of the SMP nanocomposites have been improved by incorporating multi-layers of self-assembled nanopapers. The electrically actuated shape recovery behavior and the temperature profile during the actuation were monitored and characterized at a voltage of 30 V. (C) 2013 Elsevier Ltd. All rights reserved
This work studies the synergistic effect of self-assembled carbon nanofiber nanopaper and hexagonal ...
This study reports an effective approach of significantly improving electrical properties and recove...
The present paper studies the electrical and shape-memory behavior of self-assembled carbon nanofibe...
This study presents an effective approach to significantly improve the electrical properties of shap...
The present work studies the synergistic effect of carbon nanofiber (CNF) and carbon nanopaper on th...
A conductive carbon nanofiber (CNF) paper is described for the actuation of shape recovery of a shap...
The synergistic effect of self-assembled carbon nanofiber (CNF) nanopaper and the multi-layered inte...
Many substantial works have been done on the shape recovery of shape memory polymer blended with con...
To electrically activate the shape recovery in a styrenebased shape-memory polymer (SMP) by coating ...
Shape-memory polymers (SMPs) are one of the most popular smart materials due to their light weight a...
An effective approach to significantly improve electro-activated recovery performance of shape memor...
The present paper studies the electrical and shape-memory behavior of self-assembled carbon nanofibe...
Shape-memory polymers (SMPs) are one of the most popular smart materials due to their light weight a...
Shape-memory polymers (SMP) composites have attracted significant attention from both industrial and...
This work studies the synergistic effect of self-assembled carbon nanofiber nanopaper and hexagonal ...
This work studies the synergistic effect of self-assembled carbon nanofiber nanopaper and hexagonal ...
This study reports an effective approach of significantly improving electrical properties and recove...
The present paper studies the electrical and shape-memory behavior of self-assembled carbon nanofibe...
This study presents an effective approach to significantly improve the electrical properties of shap...
The present work studies the synergistic effect of carbon nanofiber (CNF) and carbon nanopaper on th...
A conductive carbon nanofiber (CNF) paper is described for the actuation of shape recovery of a shap...
The synergistic effect of self-assembled carbon nanofiber (CNF) nanopaper and the multi-layered inte...
Many substantial works have been done on the shape recovery of shape memory polymer blended with con...
To electrically activate the shape recovery in a styrenebased shape-memory polymer (SMP) by coating ...
Shape-memory polymers (SMPs) are one of the most popular smart materials due to their light weight a...
An effective approach to significantly improve electro-activated recovery performance of shape memor...
The present paper studies the electrical and shape-memory behavior of self-assembled carbon nanofibe...
Shape-memory polymers (SMPs) are one of the most popular smart materials due to their light weight a...
Shape-memory polymers (SMP) composites have attracted significant attention from both industrial and...
This work studies the synergistic effect of self-assembled carbon nanofiber nanopaper and hexagonal ...
This work studies the synergistic effect of self-assembled carbon nanofiber nanopaper and hexagonal ...
This study reports an effective approach of significantly improving electrical properties and recove...
The present paper studies the electrical and shape-memory behavior of self-assembled carbon nanofibe...