Polyamide‐12/Functionalized Carbon Nanofiber Composites: Evaluation of Thermal and Mechanical Properties

Chávez-Medellín, Ricardo; Prado, L.; Schulte, Karl

doi:10.1002/mame.200900316

Cited by 27 publications

(19 citation statements)

References 46 publications

(53 reference statements)

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“…Similar results were also reported by Sandler et al, Perrot et al, and Chatterjee et al for PA12/MWNT fibers with elongation at break ranging between 10 and 325%. Weakened polymer‐nanotube interface and inclusions creating defects in the polymer chains were identified as some of the main causes . In this work, CNT agglomerates and randomly aligned nanofillers were observed by TEM, even after 500% elongation [Figure (c)], confirming that they could act as imperfections and lead to lower strain‐to‐failure.…”

Section: Resultssupporting

confidence: 51%

Investigation of a postprocessing method to tailor the mechanical properties of carbon nanotube/polyamide fibers

Palardy

Trudel-Boucher

Hubert

2013

J of Applied Polymer Sci

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The incorporation of carbon nanotubes to thermoplastic fibers can potentially improve mechanical, thermal and electrical properties. In this article, a methodology to tailor the mechanical properties of carbon nanotube/nylon fibers is presented. Multiwalled nanotubes (MWNT) were combined to polyamide 12 through melt compounding and twin-screw extrusion. Pellets containing between 0 and 5.0 wt % MWNT were extruded and subsequently melt spun with a capillary rheometer to produce filaments. To further promote the alignment of the polymer chains and MWNTs, postdrawing parameters were systematically investigated: temperature, drawing speed and elongation. The best improvements in terms of elastic modulus and yield strength were measured at 140 C and 500% elongation, whereas drawing speed was shown to have a negligible effect. It was confirmed through electron microscopy and X-ray diffraction that these enhancements were mainly induced by the alignment of the polymer chains along the fibers' axis.

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Section: Resultssupporting

confidence: 51%

Investigation of a postprocessing method to tailor the mechanical properties of carbon nanotube/polyamide fibers

Palardy

Trudel-Boucher

Hubert

2013

J of Applied Polymer Sci

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“…The improvement of tensile properties has been obtained through laser sintering of PA12/carbon nanofiber composites . Recently, it has been reported that with carbon nanofibers in PA12 the thermal and thermo‐oxidative stabilities of the matrix could be improved along with the stiffness of the material . The composite of PA12 with a small amount of the functionalized expandable graphene caused a significant improvement in the tensile strength, elongation to break, impact energy, and the toughness of the polymer, although no significant improvement in Young's modulus was reported .…”

Section: Polyamide Nanocomposites Based On Carbon Nanofillersmentioning

confidence: 99%

Polyamide/Carbon Nanoparticles Nanocomposites: A Review

2016

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This review is designed to be a comprehensive source for polyamide (PA) nanocomposite research, including fundamental structure/property relationships, manufacturing techniques, and applications of these materials. This work presents the scientific framework for the advances in PA nanocomposite containing carbon nanofiller, and different methods applied in order to synthesis them. This review focuses on the scientific principles and mechanisms in relation to the methods of processing and manufacturing. A comprehensive discussion on technology, modeling, characterization, processing, manufacturing, and applications have been done. The processing and properties of PA nanocomposites with carbon nanofillers are investigated. In addition, the mechanical properties and morphology changes of PA with the incorporation of nanoparticles are described. POLYM. ENG. SCI., 57:475-494, 2017.

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Section: Multifractal Analysismentioning

confidence: 99%

“…The D and G bands, the important indexes for judging the material order, are attributed to the disorder induced and tangential mode peaks, respectively. 25 The intensity ratio of the D to G bands (I D /I G ) can be a measure of the amount of carbon defect sites (amorphous carbon or functionalized structure) relative to graphitic planes. 7 The I D /I G value of the pristine graphite is 0.17, whereas the I D /I G value of the GO platelets is 0.97, indicating that some carbon-carbon double bonds are damaged in the graphite oxidation and some sp 2 hybrid carbon atoms change to the sp 3 hybrid structure.…”

Section: Multifractal Analysismentioning

confidence: 99%

Effect of Graphite Oxide Dispersion Evaluated with Multifractal on Mechanical Properties and Thermal Stability of Poly(3hydroxybutyrate‐co‐4hydroxybutyrate)/Graphite Oxide Biocomposites

et al. 2016

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[P(3HB-co-4HB)]/graphite oxide (GO) composites were fabricated using a solution mixing method. The GO structures in the composites were analyzed by using transmission electron microscopy, Raman spectroscopy, and X-ray diffraction. The fracture morphology of the samples was evaluated by the multifractal, and the effect of GO dispersion on the mechanical properties and the thermal stability were discussed for the P(3HB-co-4HB) and the composites. It was found that the interlayer spacing of the GO increased due to the intercalation of the polymer into the GO platelets. As the GO content increased, the relative multifractal spectrum increased, but the mechanical properties declined for the composites, indicating that the filler agglomeration effect overcame the reinforcement benefits for the high loadings of the GO. Moreover, both good dispersion and high content of the GO platelets increased the thermal stability of the composites. Therefore, the relative multifractal spectrum width of the fracture morphology was related to the mechanical properties and the thermal stability of the composites.

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Polyamide‐12/Functionalized Carbon Nanofiber Composites: Evaluation of Thermal and Mechanical Properties

Cited by 27 publications

References 46 publications

Investigation of a postprocessing method to tailor the mechanical properties of carbon nanotube/polyamide fibers

Investigation of a postprocessing method to tailor the mechanical properties of carbon nanotube/polyamide fibers

Polyamide/Carbon Nanoparticles Nanocomposites: A Review

Effect of Graphite Oxide Dispersion Evaluated with Multifractal on Mechanical Properties and Thermal Stability of Poly(3hydroxybutyrate‐co‐4hydroxybutyrate)/Graphite Oxide Biocomposites

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