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網野直也 研究業績一覧 (8件)
論文
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ATSUSHI KATO,
*TAKANORI ITOH,
HIROBUMI MINOURA,
NORIO SAITO,
NAOYA AMINO,
KEN NAKAJIMA,
MAKIKO ITO,
KAZUHIKO FUJIMORI,
YOSHIMASA URUSHIHARA.
TREATMENT FOR REMOVING ZN COMPOUNDS FROMSILICA-FILLED VULCANIZED RUBBER AND ANALYSIS OF SILICA AGGREGATE DISPERSION,
Rubber Chem. Technology.,
Vol. 97,
No. 3,
343–370.,
Sept. 2024.
公式リンク
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Xiaobin Liang,
Takashi Kojima,
Makiko Ito,
Naoya Amino,
Haonan Liu,
Masataka Koishi,
Ken Nakajima*.
In Situ Nanostress Visualization Method to Reveal the Micromechanical Mechanism of Nanocomposites by Atomic Force Microscopy,
ACS Appl. Mater. Interf.,
15,
9,
12414−12422,
Feb. 2023.
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KENICHI OZAWA,
Takashi Kakubo,
Naoya Amino,
Eiji Ikenaga.
Hard X-ray photoelectron spectroscopy study of thermal effect on chemical state of sulfur in rubber compound,
Express Polymer Letters,
Budapest University of Technology & Economics,
Vol. 13,
No. 3,
pp. 214-222,
Jan. 2019.
公式リンク
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Kenichi Ozawa,
Takashi Kakubo,
Naoya Amino,
Kazuhiko Mase,
Eiji Ikenaga,
Tetsuya Nakamura.
Angle-Resolved HAXPES Investigation on the Chemical Origin of Adhesion between Natural Rubber and Brass,
Langmuir,
American Chemical Society,
Vol. 33,
No. 38,
pp. 9582-9589,
Aug. 2017.
公式リンク
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清水克典,
鹿久保隆志,
網野直也,
小澤健一.
X線高分解能光電子分光を用いた黄銅/ゴム世着界面観察,
日本ゴム協会誌,
日本ゴム協会,
Vol. 88,
No. 8,
pp. 291-296,
Oct. 2015.
公式リンク
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Kenichi Ozawa,
Takashi Kakubo,
Katsunori Shimizu,
Naoya Amino,
Kazuhiko Mase,
Eiji Ikenaga,
Tetsuya Nakamura,
Toyohiko Kinoshita,
Hiroshi Oji.
In situ chemical state analysis of buried polymer/metal adhesiveinterface by hard X-ray photoelectron spectroscopy,
Applied Surface Science,
Vol. 320,
pp. 117-182,
Sept. 2014.
公式リンク
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K. Ozawa,
T. Kakubo,
K. Shimizu,
N. Amino,
K. Mase,
Y. Izumi,
T. Muro,
T. Komatsu.
High-Resolution Photoelectron Spectroscopy Study of Degradation of Rubber-to-Brass Adhesion by Thermal Aging,
Applied Surface Science,
Elsevier B.V.,
Vol. 268,
pp. 117-123,
Jan. 2013.
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K. Ozawa,
T. Kakubo,
Katsunori Shimizu,
Naoya Amino,
K. Mase,
T. Komatsu.
High-Resolution Photoelectron Spectroscopy Analysis of Sulfidation of Brass at the Rubber/Brass Interface,
Applied Surface Science,
Elsevier B.V.,
Vol. 264,
pp. 297-304,
Oct. 2012.
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