2015
DOI: 10.1016/j.compositesb.2015.03.049
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Characterization of polyamide 6/carbon nanotube composites prepared by melt mixing-effect of matrix molecular weight and structure

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Cited by 48 publications
(49 citation statements)
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“…Furthermore, an increase of agglomerate size is seen from 32 to 70.4 µm in this loading range. Compared with quantitative dispersion data for PA6/CNT‐COOH in our previous work, it is inferred that ND‐COOH provides smaller and fewer agglomerates suggesting the potential of this nanoparticle for better dispersion in PA6 matrix. This could be due to the small and spherical shape of ND providing entanglement‐free particles compared to CNTs, making easier its dispersion in a thermoplastic melt.…”
Section: Resultsmentioning
confidence: 61%
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“…Furthermore, an increase of agglomerate size is seen from 32 to 70.4 µm in this loading range. Compared with quantitative dispersion data for PA6/CNT‐COOH in our previous work, it is inferred that ND‐COOH provides smaller and fewer agglomerates suggesting the potential of this nanoparticle for better dispersion in PA6 matrix. This could be due to the small and spherical shape of ND providing entanglement‐free particles compared to CNTs, making easier its dispersion in a thermoplastic melt.…”
Section: Resultsmentioning
confidence: 61%
“…As shown in Fig. (a), the broader peak of the crystallization curve of PA6/ND‐EDA illustrates the wider distribution of the sizes of crystals indicating the role of nanoparticles as nucleating agents.…”
Section: Resultsmentioning
confidence: 90%
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“…For PBS/MBF composites (Figure 9b,d-f), the polymers are coated on the silane-treated fiber surface, and the voids between PBS matrix and MBF were significantly reduced, suggesting strong interfacial adhesion compared to the untreated fiber. In order to a obtain deeper understanding on the effect of interfacial crystallization on tensile results and interfacial strength, a simulation of material properties was performed using a mathematical Kelly-Tyson model derived from experimental data of PBS/MBF biocomposites, as given by Equation (4) [36,37].…”
Section: Tensile Properties Of Pbs/mbf Biocompositesmentioning
confidence: 99%
“…Especially, Vf is calculated by Equation (5) [38]. In order to a obtain deeper understanding on the effect of interfacial crystallization on tensile results and interfacial strength, a simulation of material properties was performed using a mathematical Kelly-Tyson model derived from experimental data of PBS/MBF biocomposites, as given by Equation (4) [36,37].…”
Section: Tensile Properties Of Pbs/mbf Biocompositesmentioning
confidence: 99%