Yoshiyasu Hirano scite author profile

We have developed a method for the three-dimensional (3D) printing of continuous fiber-reinforced thermoplastics based on fused-deposition modeling. The technique enables direct 3D fabrication without the use of molds and may become the standard next-generation composite fabrication methodology. A thermoplastic filament and continuous fibers were separately supplied to the 3D printer and the fibers were impregnated with the filament within the heated nozzle of the printer immediately before printing. Polylactic acid was used as the matrix while carbon fibers, or twisted yarns of natural jute fibers, were used as the reinforcements. The thermoplastics reinforced with unidirectional jute fibers were examples of plant-sourced composites; those reinforced with unidirectional carbon fiber showed mechanical properties superior to those of both the jute-reinforced and unreinforced thermoplastics. Continuous fiber reinforcement improved the tensile strength of the printed composites relative to the values shown by conventional 3D-printed polymer-based composites.

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Coupled thermal–electrical analysis for carbon fiber/epoxy composites exposed to simulated lightning current

Ogasawara

Hirano

Yoshimura

2010

Composites Part A: Applied Science and Manufacturing

294

270

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3D Printing of Continuous Carbon Fibre Reinforced Thermo-Plastic (CFRTP) Tensile Test Specimens

Klift¹,

Koga²,

Todoroki³

et al. 2016

OJCM

445

276

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A study was conducted to evaluate the current production capabilities of the Mark One ® 3D printer in printing carbon fibre reinforced thermoplastic (CFRTP) tensile test specimens according to the JIS K 7073 by making use of fused deposition modelling. Several different types of CFRTP tensile test specimens are printed and are tensile tested in the longitudinal direction to obtain an overview of the mechanical properties of 3D printed CFRTP material. These properties are compared with the literature values known for composite materials to see if these agree. The main goal of this research is to increase the knowledge of the 3D printing process of CFRTP and to later use this knowledge to further improve the 3D printing process to obtain stronger 3D printed CFRTP materials.

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Artificial lightning testing on graphite/epoxy composite laminate

Hirano¹,

Katsumata²,

Iwahori³

et al. 2010

Composites Part A: Applied Science and Manufacturing

269

215

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3D printing of composite sandwich structures using continuous carbon fiber and fiber tension

Sugiyama

Matsuzaki

Ueda

et al. 2018

Composites Part A: Applied Science and Manufacturing

218

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