Session Details
[CA-P]Composite Materials and Adhesion
Wed. Mar 19, 2025 9:00 AM - 12:00 PM JST
Wed. Mar 19, 2025 12:00 AM - 3:00 AM UTC
Wed. Mar 19, 2025 12:00 AM - 3:00 AM UTC
ISWST Poster (Sakura)(Conference Bldg. 2F)(Timber Engineering1)
[CA-P-01]Structural Analysis of Spherical Microparticles Composed of Cellulose Nanofibers and Artificial Lignin
○Yuki Watanabe1, Akio Kumagai2, Keita Sakakibara2, Mayumi Hatakeyama1, Takuya Kitaoka1 (1. Kyushu Univ. (Japan), 2. AIST (Japan))
[CA-P-02]Surface functionalization of cellulose acetate microparticles thorough nanochitin coating
○Yuto Kaku1, Shuji Fujisawa2, Tsuguyuki Saito2, Noriyuki Isobe1 (1. Japan Agency for Marine-Earth Science and Technology (Japan), 2. The University of Tokyo (Japan))
[CA-P-03]The changes in mechanical properties of CNF-reinforced PP by pressing below its melting point
○Tomoya Hamada1, Soichi Tanaka1, Shinsuke Ifuku1, Hiroyuki Yano1 (1. Kyoto Univ. (Japan))
[CA-P-04]MCC-reinforced PLA/PHA/PBAT Ternary Blend Biocomposites: FDM 3D Printing Fabrication and Characterization
○Birm-June Kim1, Jong-In Park1 (1. Kookmin Univ. (Korea))
[CA-P-05]Cellulose nanofiber-based hydrogels formed by a freeze-crosslinking method and its applications
○Yurina Sekine1, Takuya Nankawa1 (1. Japan Atomic Energy Agency (Japan))
[CA-P-06]Effect of Silane Treatment and In-situ Microfibrillation on the Mechanical, Thermal, and Morphological Properties of FDM 3D Printed PLA/PA1010/MCC Biocomposites
○Jong-In Park1, Birm-June Kim1 (1. Kookmin Univ. (Korea))
[CA-P-07]Porous silica/nanocellulose composite prepared via emulsion-templating method
○Yasunori Abe1, Kota Hasunuma1, Tsuguyuki Saito1, Shuji Fujisawa1 (1. The University of Tokyo (Japan))
[CA-P-08]Electrical resistivity of wood-cement biocomposites of Pinus pseudostrobus (pino blanco)
○Sonia Correa Jurado1, Javier Ramón Sotomayor Castellanos1, Firas Hawasly2, Koji Adachi2 (1. Universidad Michoacana de San Nicolás de Hidalgo (Mexico), 2. Akita Prefectural University (Japan))
[CA-P-09]Sodium hypochlorite–based binderless technology for solid wood adhesion. - Latency of adhesion ability-
○Kamii Nakamura1, Naoyuki Furuta1, junko Miyazaki1, Noboru Nakamura2 (1. Hokkaido Reseach Organization (Japan), 2. Okayama Univ. (Japan))
[CA-P-10]Research on new materials by reassembling lignocellulosic biomass using formic acid
– Hydrophobicity control of biomass film coating using bark –
○Naoko Kobayashi1, Tomohiro Hashizume1,2, Takashi Watanabe1 (1. Kyoto Univ., RISH (Japan), 2. Daicel Corporation (Japan))
[CA-P-11]The elastic softened characteristics of modified wood treated with an ionic liquid over two years
○Hiroki Sakagami1, Hiroki Suematsu2, Tetsuya Tsuda3 (1. Iwate University (Japan), 2. Kyushu University (Japan), 3. Chiba University (Japan))
[CA-P-12]Flow-formed African blackwood material that replicates the macro-scale fiber orientation of the original wood
○Momoko Matsumoto1, Kazuki Soga1, Kazushi Nakai1,2, Yoshimasa Urushihara3 (1. Yamaha Corporation (Japan), 2. Kyoto Univ. (Japan), 3. Japan Synchrotron Radiation Research Institute (JASRI) (Japan))
[CA-P-14]Estimation of mechanical properties of particleboard based on manufacturing conditions using Heteroscedastic Gaussian Process Regression
○Masato Suga1, Nobuhiro Asakura1 (1. Hokkaido Research Organization (Japan))
[[Canceled]CA-P-15][Canceled]
[CA-P-16]Gelatin adhesive for wood materials with thermoplasticity using quinone cross-linking with polyethyleneimine.
○Masahiko INAGAKI1, Masako SEKI1, Mitsuru ABE1, Tsunehisa MIKI1 (1. National Institute of Advanced Industrial Science and Technology (AIST) (Japan))