Session Details
フレッシュコンクリート (2)/高流動コンクリート (1)
Fri. Sep 6, 2024 3:10 PM - 4:30 PM JST
Fri. Sep 6, 2024 6:10 AM - 7:30 AM UTC
Fri. Sep 6, 2024 6:10 AM - 7:30 AM UTC
C302(川内北キャンパス講義棟C棟)
Chair: SUZUKI Masamitsu
[V-671]Effect of Entrained Air on Ability to Pass through Rebars Subject to Vibration
*Yutaro Kishimoto1, Issei Oya1, Makoto Hibino1 (1. Kyushu Institute of Technology)
[V-672]Study on the workability of fresh-concrete controlled by slump flow
*Sho Sato1, Kousuke Minami1, Seiji Funahashi1, Yuki Miyazawa1, Hideyuki Kajita1 (1. MAEDA CORPORATION)
[V-673]Study on adaptation of medium- and high-flow concrete for tunnel lining using fly ash
*Hikaru Ichikawa1, Hiromitsu Koyama2, Takeshi Yamamoto3, Shinichiro Hashimoto1, Taro Hiromitsu2, Syosuke Fujiwara2, Tomoyoshi Ono2, Keisuke Nagashima1 (1. Chiba Institute of Technology, 2. SATO KOGYO, 3. Central Research Institute of Electric Power Industry Structures and Earthquake Engineering Division)
[V-674]Study on filling performance evaluation of tunnel lining concrete press-in construction method
*Satoshi Watanabe1, Hiromitsu Koyama2, Shinichiro Hashimoto1, Hikaru Ichikawa1, Taro Hiromitsu2 (1. Chiba Institute of Technology, 2. Sato Kogyo)
[V-675]An application of rank 1 self-compaction performance high flowable concrete with low heat portland cement and viscosity agent
*Tomoya Nakao1, Shinjiro Ikezoe2, Takayuki Suzuki1, Toshiki Ohashi1, Hiroshi Akiyama1 (1. Co.LtdZenitakagumi, 2. Co.Ltd West Nippon Expressway Company)
[V-676]Effect of improving workability of High-fluidity Concrete requires compaction applied to port structures
*Makoto Ujiie1, Kouji Morita1, Toshiki Takabuchi1, Yoshikazu Muraki1, Gota Kishimoto1, Satoshi Oga1 (1. TOYO CONSTRUCTION CO., LTD)
[V-677]Development of automated lining construction using self-compacting concrete: Study on low-carbon type self-compacting concrete mix
*Hiromitsu Koyama1, Shosuke Fujiwara1, Tomonori Ono1, Shinichiro Hashimoto2, Takeshi Yamamoto3 (1. SATO KOGYO CO.,LTD., 2. Chiba Institute of Technology, 3. Central Research Institute of Electric Power Industry)
[V-678]Study of High-Fluidity Concrete Containing Blast Furnace Slag Powder to Reduce Steam Curing
*Fumika NakaNakamura1, Mamoru Masaki1, Gohta Ainai2, Takuya Maeshima2, Ichirou Iwaki2 (1. FUJI P.S Corporation, 2. NIHON University)