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| Category |
Research topic |
Researcher |
University or institution |
Keywords |
|
| Research Institute |
・ Development of high-speed and low-cost manufacturing technology of the thin prepreg sheet using tow-spreading technology.
・ Development of the thermosetting resin for CFRP. |
KONDO keiichi |
Industrial Technology Center of Fukui Prefecture |
FRP, Thin prepreg sheet, Thermosetting resin, Tow-spreading technology |
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|
| Research Institute |
・Effect of Ply Thickness on Mechanical Properties in Multidirectionally Laminated Composites.
・Development of a thin prepreg sheet and a thin-ply laminateusing tow-spreading technology. |
Kouhei Yamada |
Industrial Technology Center of Fukui Prefecture |
FRP, CFRP, Thin-ply laminate, Tow-spreading technology |
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|
| Research Institute |
・Development of tow spreading technologies・ Development of manufacturing technology of thin prepreg sheet
・ Effect of mechanical properties in multi directionally laminated composites using the thin prepreg sheet |
Kazumasa Kawabe |
Industrial Technology Center of Fukui Prefecture |
FRP, CFRP, Thin-ply laminate, Tow-spreading technology |
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|
| Research Institute |
Development of Highly Functional Textile Materials Using the Nanofiber |
Ryoji KANAMARU, Toshihiro NOJIRI, Norimitsu SANAE,
Dohiko TERADA*1
|
Toyama Industrial Technology Center, Human Life Technology Research Institute,
*1 Toyama Industrial Technology Center, Central Research Institute
|
Nanofiber, electro spinning, Permeability, waterproofing |
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|
| University |
nanofiber, Kansei materials, compositessoft, material (elastomer, rubber) |
Yoshihiro Yamashita |
University of Shiga Prefecture |
electrospinning, nanofiber, KES Kawabataevalution system, biaxial deformation |
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| University |
Nanofiber Prepared by CO2 Laser Supersonic Drawing |
Suzuki Akihiro |
University of Yamanashi |
Nanofiber, Carbon dioxide laser, Supersonic-drawing, Thermoplastic polymer, Sheet, Multi-filament, 3D structure |
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|
| University |
Application of Nanofiber Technology to high-performance polymers -bottom-up new technology by using polymer crystallization- |
Tetsiya UCHIDA |
Graduate School of Natural Science and Technology, Okayama University |
Rigid Polymer, Nanofiber, Nanofiber mat, Crystallization, High thermal stability |
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PDF |
| University |
Estimation of Mechanical Characteristics for Advanced Textile Composites |
Tetsusei KURASHIKI |
Management of Industry and Technology, Graduate School of Engineering, Osaka Univ. |
FRP, Mechanical characteristics, Reliability, FEM, Multi-scale analysis, Simulation |
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| University |
Studies on the relationship between the physical properties of fibers/yarns/ fabrics and the objective evaluation of wearing/using comfort, and the performance design of textile. |
Mari Inoue |
Kobe University |
fiber, yarn, abric, mechanical property, thermal/moisture/air transport property, fabric hand, wearing pressure, micro clothing climate |
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|
| University |
Polymer Properties, Polymer Structure |
Takashi Nishino |
Kobe University |
|
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|
| University |
Morphology Control of Aromatic Polymers by using Reaction-induced Phase Separation during Polymerization |
Kunio Kimura |
Graduate School of Environmental and Life Science, Okayama University |
Aromatic polymers, Phase separation during polymerization, High-performance polymers, Morphology, Nanofibers |
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PDF |
| University |
Development of Melt Extrusion Process and Polymer Nano-rods or hairs Fabrication with Nano-template |
Ito, Hiroshi |
Yamagata University |
anodic aluminum oxide (AAO), imprint, nanofibers, nanorods, capillary action |
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|
| University |
Design and Characterization of Novel Nanohybrids from Natural Inorganic Nanofibers |
Atsushi Takahara |
Kyushu University |
Imogolite, Halloysite, Interfacial Structure, Nanohybrids |
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|
| University |
Polymer Crystallization under flow |
Toshiji Kanaya |
Kyoto University |
Flow induced crystallization |
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|
| University |
Estimation of intrinsic strength of carbon fibers |
Masatoshi Shioya |
Tokyo Institute of Technology |
Carbon fibers, Intrinsic strength |
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|
| University |
Nanofibers and Nanomaterials, Energy Conversion and Storage Materials, Polymer Membranes |
Hidetoshi Matsumoto |
Tokyo Institute of Technology |
Nanofiber, Nanomaterial, Energy Conversion, Energy Storage, Polymer Membrane |
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|
| University |
Nanofiber |
Akihiko Tanioka |
Tokyo Institute of Technology |
Nanofiber, Nanosize fiber, Nanostructure fiber, Electrospinning, Melt air spinning, Conjugate spinning, Meltblown, Information and communication society, Health and extension of life, Environmental, energy and infrastructure industries |
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|
| University |
Modification of Fiber and Polymer Materials using Super Critical Fluid and Radiation Techniques |
SATOKO OKUBAYASHI |
Kyoto Institute of Technology |
Cultural properties, Carbon thin layer, Functionalization, Cleaning, Electron beam, Ion beam, Carbon dioxide |
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PDF |
| University |
Effect of the electrospinning conditions on the higher-order structure and the stereocomplex formation of the PLLA/PDLA blend nanofibers taken-up on a rotating target |
Masaki Yamamoto, Hideki Yamane |
Dept. of Biobased Materials Science, Kyoto Institute of Technology |
Poly(lactic acid), Electrospinning, Nanofiber, Stereocomplex |
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|
| University |
Effect of the block length on the physical properties of the multi-stereoblock poly(lactic acid) melt-spu fibers |
Yohanes Windu Widhianto, Kazunari Masutani, Yoshiharu Kimura, Hideki Yamane |
Dept. of Biobased Materials Science, Kyoto Institute of Technology |
Multi-stereoblock poly(lactic acid), Melt-spinning, smectic structure, stereocomplex |
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