R
Ryosuke Matsuzaki
Researcher at Tokyo University of Science
Publications - 163
Citations - 4487
Ryosuke Matsuzaki is an academic researcher from Tokyo University of Science. The author has contributed to research in topics: Ultimate tensile strength & Transfer molding. The author has an hindex of 28, co-authored 151 publications receiving 3272 citations. Previous affiliations of Ryosuke Matsuzaki include Tohoku University & Tokyo Institute of Technology.
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Three-dimensional printing of continuous-fiber composites by in-nozzle impregnation.
Ryosuke Matsuzaki,Masahito Ueda,Masaki Namiki,Tae Kun Jeong,Hirosuke Asahara,Keisuke Horiguchi,Taishi Nakamura,Akira Todoroki,Yoshiyasu Hirano +8 more
TL;DR: The technique enables direct 3D fabrication without the use of molds and may become the standard next-generation composite fabrication methodology.
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3D Printing of Continuous Carbon Fibre Reinforced Thermo-Plastic (CFRTP) Tensile Test Specimens
Frank van der Klift,Yoichiro Koga,Akira Todoroki,Masahito Ueda,Yoshiyasu Hirano,Ryosuke Matsuzaki +5 more
TL;DR: In this paper, a study was conducted to evaluate the current production capabilities of the Mark One® 3D printer in printing carbon fiber reinforced thermoplastic (CFRTP) tensile test specimens according to the JIS K 7073 by making use of fused deposition modelling.
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3D printing of composite sandwich structures using continuous carbon fiber and fiber tension
TL;DR: In this paper, a continuous carbon fiber 3D printer was used to produce composite composite core shapes with honeycomb, rhombus, rectangle, and circle core shapes as a single piece.
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Wireless flexible capacitive sensor based on ultra-flexible epoxy resin for strain measurement of automobile tires
Ryosuke Matsuzaki,Akira Todoroki +1 more
TL;DR: In this paper, a flexible patch-type strain sensor utilizing electric capacitance change was proposed to measure the applied strain of the tire wirelessly, and the effects of the temperature changes were minimized using a dummy sensor in a self-temperature compensation circuit.
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Improving performance of GFRP/aluminum single lap joints using bolted/co-cured hybrid method
TL;DR: In this article, a bolted/co-cured hybrid joining method was proposed, and the joint strength was evaluated using aluminum alloy A5052-F and knit fabric glass epoxy composites.