Fabrication of Magnetite/Pla Composite Nanofiber Sheet and Evaluation of Its Mechanical Properties

Tanaka, Kazuto; Okada, Takuya; Motohashi, Yuto; Katayama, Tsutao

doi:10.2495/mc170271

Cited by 2 publications

(1 citation statement)

References 8 publications

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“…The addition of CNT is expected to improve their mechanical properties of PA6. In order to disperse nanoparticles in polymer, we have been using electrospinning, in which nanofibres are fabricated in an electrically charged state and continuously stretched due to the potential difference between a polymer solution and a target [7,8].…”

Section: Introductionmentioning

confidence: 99%

Effect of Air Oxidation Treatment of CNT on Tensile Strength of CNT / Polyamide 6 Nanofibres and their Dispersion

Tanaka

Kamada

Katayama

2019

KEM

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Carbon nanotube (CNT) is excellent in mechanical and thermal characteristics, and are expected to be used in various fields such as nanoelectronic devices and reinforcing nanofillers for composites. It is expected that mechanical properties can be improved by adding CNT into the polymer. However, since CNT exists in a state of aggregation due to van der Waals forces, it is necessary to uniformly disperse CNT in order to fully extract the properties of CNT. In this study, CNT/polyamide 6 (PA6) composite nanofibres were fabricated by the electrospinning method. In order to disperse CNT in the CNT/PA6 nanofibres, CNT were subjected to air oxidation treatment. As a result of evaluating the dispersibility of CNT by sedimentation test, the dispersibility in pure water and HFIP is improved by oxidizing the surface of CNT. By conducting tensile tests and SEM observation of the nanofibre non-woven fabric, the influence of the surface treatment on the tensile strength of CNT/PA6 nanofibres and the dispersion of CNT was clarified. Although the addition of untreated CNT to PA6 nanofibres reduces the displacement at break, air oxidized CNT/PA6 suppressed the formation of CNT aggregates, and showed higher tensile strength and larger displacement at break than untreated CNT/PA6.

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Section: Introductionmentioning

confidence: 99%

Effect of Air Oxidation Treatment of CNT on Tensile Strength of CNT / Polyamide 6 Nanofibres and their Dispersion

Tanaka

Kamada

Katayama

2019

KEM

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Evaluation of Mechanical Properties of Magnetite/PLA Nanofibers

Tanaka

Okada

Katayama

2018

J. Soc. Mat. Sci., Japan

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Hyperthermia has been reported to be an effective cancer treatment, and magnetic nanofibers are expected to be used for it. As a material of the nanofiber for this purpose, poly lactic acid (PLA) and magnetite (Fe 3 O 4) are used. Aligned fabrics and nonwoven fabrics are usually used for evaluation of mechanical properties on nanofibers containing nano-particles. Since their detailed fracture mechanisms have not been clarified yet, mechanical properties of single nanofiber which is the element of these aligned and nonwoven fabrics must be evaluated. In this study, PLA single nanofibers, magnetite/PLA single nanofibers and their aligned and nonwoven fabrics were fabricated by the electrospinning method and their mechanical properties were evaluated by tensile test. Aligned fabrics having the largest distribution of orientation angle from 80 ° to 90 ° can be fabricated by the rotation speed of the drum collector at more than 2000 rpm. By applying oleic acid treatment to the magnetite, which is added to the PLA nanofiber, the formation of clusters and the decrease of tensile strength of the PLA nanofibers is suppressed. In the nonwoven fabric, not only the tensile strength of the single nanofiber but also the bond at the intersection of their nanofibers greatly affects the tensile strength.

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Fabrication of Magnetite/Pla Composite Nanofiber Sheet and Evaluation of Its Mechanical Properties

Cited by 2 publications

References 8 publications

Effect of Air Oxidation Treatment of CNT on Tensile Strength of CNT / Polyamide 6 Nanofibres and their Dispersion

Effect of Air Oxidation Treatment of CNT on Tensile Strength of CNT / Polyamide 6 Nanofibres and their Dispersion

Evaluation of Mechanical Properties of Magnetite/PLA Nanofibers

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