Thermal conductivity of carbon nanoreinforced epoxy composites
The present study attempts to investigate the influence of multiwalled carbon nanotubes (MWCNTs) and graphite nanoplatelets (GNPs) on thermal conductivity (TC) of nanoreinforced polymers and nanomodified carbon fiber epoxy composites (CFRPs). Loading levels from 1 to 3%wt. of MWCNTs and from1 to 15%...
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| Διαθέσιμο Online: | http://dx.doi.org/10.1155/2016/1847325 http://hdl.handle.net/10889/11473 |
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nemertes-10889-114732022-09-05T20:24:28Z Thermal conductivity of carbon nanoreinforced epoxy composites Κωσταγιαννακοπούλου, Χριστίνα Φιαμέγκου, Ελένη Σωτηριάδης, Γιώργος Κωστόπουλος, Βασίλης Kostagiannakopoulou, Christina Fiamegkou, Eleni Sotiriadis, George Kostopoulos, Vassilis Multiwalled carbon nanotubes Graphite nanoplatelets Thermal conductivity Nanoreinforced polymers Nanomodified carbon fiber epoxy composites OpenAIRE post grant pilot Νανοσωλήνες άνθρακα πολλαπλών τοιχωμάτων Γραφιτικά νανοεπίπεδα Θερμική αγωγιμότητα The present study attempts to investigate the influence of multiwalled carbon nanotubes (MWCNTs) and graphite nanoplatelets (GNPs) on thermal conductivity (TC) of nanoreinforced polymers and nanomodified carbon fiber epoxy composites (CFRPs). Loading levels from 1 to 3%wt. of MWCNTs and from1 to 15%wt. of GNPs were used.The results indicate that TC of nanofilled epoxy composites increased with the increase of GNP content. Quantitatively, 176% and 48% increase of TC were achieved in nanoreinforced polymers and nanomodified CFRPs, respectively, with the addition of 15% wt. GNPs into the epoxy matrix. Finally, micromechanical models were applied in order to predict analytically the TC of polymers and CFRPs. Lewis Nielsen model with optimized parameters provides results very close to the experimental ones in the case of polymers. As far as the composites are concerned, the Hashin and Clayton models proved to be sufficiently accurate for the prediction at lower filler contents. 2018-08-01T05:15:12Z 2018-08-01T05:15:12Z 2016-05 Journal (paper) Kostagiannopoulos, C., Fiamengou, E., Sotiriadis, G., & Kostopoulos, V. (2016). "Thermal Conductivity of Carbon Nanoreinforced Epoxy Composites". Journal of Nanomaterials, 2016, 1-11. http://dx.doi.org/10.1155/2016/1847325 http://dx.doi.org/10.1155/2016/1847325 http://hdl.handle.net/10889/11473 en application/pdf Journal of nanomaterials |
| institution |
UPatras |
| collection |
Nemertes |
| language |
English |
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Multiwalled carbon nanotubes Graphite nanoplatelets Thermal conductivity Nanoreinforced polymers Nanomodified carbon fiber epoxy composites OpenAIRE post grant pilot Νανοσωλήνες άνθρακα πολλαπλών τοιχωμάτων Γραφιτικά νανοεπίπεδα Θερμική αγωγιμότητα |
| spellingShingle |
Multiwalled carbon nanotubes Graphite nanoplatelets Thermal conductivity Nanoreinforced polymers Nanomodified carbon fiber epoxy composites OpenAIRE post grant pilot Νανοσωλήνες άνθρακα πολλαπλών τοιχωμάτων Γραφιτικά νανοεπίπεδα Θερμική αγωγιμότητα Κωσταγιαννακοπούλου, Χριστίνα Φιαμέγκου, Ελένη Σωτηριάδης, Γιώργος Κωστόπουλος, Βασίλης Thermal conductivity of carbon nanoreinforced epoxy composites |
| description |
The present study attempts to investigate the influence of multiwalled carbon nanotubes (MWCNTs) and graphite nanoplatelets (GNPs) on thermal conductivity (TC) of nanoreinforced polymers and nanomodified carbon fiber epoxy composites (CFRPs). Loading levels from 1 to 3%wt. of MWCNTs and from1 to 15%wt. of GNPs were used.The results indicate that TC of nanofilled epoxy composites increased with the increase of GNP content. Quantitatively, 176% and 48% increase of TC were achieved in nanoreinforced polymers and nanomodified CFRPs, respectively, with the addition of 15% wt. GNPs into the epoxy matrix. Finally, micromechanical models were applied in order to predict analytically the TC of polymers and CFRPs. Lewis Nielsen model with optimized parameters provides results very close to the experimental ones in the case of polymers. As far as the composites are concerned, the Hashin and Clayton models proved to be sufficiently accurate for the prediction at lower filler contents. |
| author2 |
Kostagiannakopoulou, Christina |
| author_facet |
Kostagiannakopoulou, Christina Κωσταγιαννακοπούλου, Χριστίνα Φιαμέγκου, Ελένη Σωτηριάδης, Γιώργος Κωστόπουλος, Βασίλης |
| format |
Journal (paper) |
| author |
Κωσταγιαννακοπούλου, Χριστίνα Φιαμέγκου, Ελένη Σωτηριάδης, Γιώργος Κωστόπουλος, Βασίλης |
| author_sort |
Κωσταγιαννακοπούλου, Χριστίνα |
| title |
Thermal conductivity of carbon nanoreinforced epoxy composites |
| title_short |
Thermal conductivity of carbon nanoreinforced epoxy composites |
| title_full |
Thermal conductivity of carbon nanoreinforced epoxy composites |
| title_fullStr |
Thermal conductivity of carbon nanoreinforced epoxy composites |
| title_full_unstemmed |
Thermal conductivity of carbon nanoreinforced epoxy composites |
| title_sort |
thermal conductivity of carbon nanoreinforced epoxy composites |
| publishDate |
2018 |
| url |
http://dx.doi.org/10.1155/2016/1847325 http://hdl.handle.net/10889/11473 |
| work_keys_str_mv |
AT kōstagiannakopoulouchristina thermalconductivityofcarbonnanoreinforcedepoxycomposites AT phiamenkouelenē thermalconductivityofcarbonnanoreinforcedepoxycomposites AT sōtēriadēsgiōrgos thermalconductivityofcarbonnanoreinforcedepoxycomposites AT kōstopoulosbasilēs thermalconductivityofcarbonnanoreinforcedepoxycomposites |
| _version_ |
1771297287878737920 |
