Keizo Akutagawa
Cited by
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Mesoscopic mechanical analysis of filled elastomer with 3D-finite element analysis and transmission electron microtomography
K Akutagawa, K Yamaguchi, A Yamamoto, H Heguri, H Jinnai, Y Shinbori
Rubber Chemistry and Technology 81 (2), 182-189, 2008
Three-dimensional structure of a nanocomposite material consisting of two kinds of nanofillers and rubbery matrix studied by transmission electron microtomography
H Jinnai, Y Shinbori, T Kitaoka, K Akutagawa, N Mashita, T Nishi
Macromolecules 40 (18), 6758-6764, 2007
Improved tire wet traction through the use of mineral fillers
H Mouri, K Akutagawa
Rubber chemistry and technology 72 (5), 960-968, 1999
Car control method and car control apparatus
Y Wakao, K Akutagawa
US Patent 7,423,393, 2008
The new interpretation for the heat build-up phenomena of rubbery materials during deformation
K Akutagawa, S Hamatani, T Nashi
Polymer 66, 201-209, 2015
Nanoscale stress distribution in silica-nanoparticle-filled rubber as observed by transmission electron microscopy: implications for tire application
T Miyata, T Nagao, D Watanabe, A Kumagai, K Akutagawa, H Morita, ...
ACS Applied Nano Materials 4 (5), 4452-4461, 2021
Development of a three-dimensional tomography holder for in situ tensile deformation for soft materials
T Higuchi, T Gondo, H Miyazaki, A Kumagai, K Akutagawa, H Jinnai
Microscopy 67 (5), 296-300, 2018
Technology for reducing tire rolling resistance
K Akutagawa
Tribology online 12 (3), 99-102, 2017
The effect of low molar mass liquids on the dynamic mechanical properties of elastomers under strain
CKL DAVIES, AG Thomas, K Akutagawa
Progress in rubber and plastics technology 12 (3), 174-190, 1996
Scattering patterns and stress–strain relations on phase-separated ABA block copolymers under uniaxial elongating simulations
K Hagita, K Akutagawa, T Tominaga, H Jinnai
Soft matter 15 (5), 926-936, 2019
Vehicle control method and vehicle control apparatus
K Akutagawa, H Sawada
US Patent 7,364,196, 2008
Device for predicting deformation behavior of rubber material and method for predicting deformation behavior of rubber material
S Hamatani, K Akutagawa, H Shima
US Patent 9,002,687, 2015
Thermomechanical characterization of carbon black reinforced rubbers during rapid adiabatic straining
WA Kyei-Manu, LB Tunnicliffe, J Plagge, CR Herd, K Akutagawa, ...
Frontiers in Materials 8, 743146, 2021
Flame-retardant rubber tires
T Hashimoto, K Akutagawa, K Yagawa, M Tanaka, J Yamagishi, ...
US Patent 5,531,256, 1996
Stabilization of Vehicle Dynamics by Tire Digital Control—Tire Disturbance Control Algorithm for an Electric Motor Drive System
K Akutagawa, Y Wakao
World Electric Vehicle Journal 10 (2), 25, 2019
Tire ecopia with low rolling resistance for a better environmental compatibility
HR Hein, K Akutagawa, H Heguri, N Yamagishi
ATZ worldwide eMagazine 113 (6), 36-41, 2011
芥川恵造, 小澤洋一, 山田浩, 濱田達郎
日本ゴム協会誌 80 (10), 394-401, 2007
Chemical recycling of waste tire in high-temperature organic fluid
D Yamashita, K Usui, T Takahashi, K Akutagawa, M Hojo, K Hironaka, ...
Journal of Material Cycles and Waste Management 22, 1249-1257, 2020
Trends in Tire Technology
K Akutagawa, Y Ozawa, H Yamada, T Hamada
Nippon Gomu Kyokaishi(Journal of the Society of Rubber Industry, Japan) 80 …, 2007
Flame-retardant rubber tires
T Hashimoto, K Akutagawa, K Yagawa, M Tanaka, J Yamagishi, ...
US Patent 5,341,862, 1994
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