Nomura Shun

Affiliation and department：

Research field (1)： Geotechnical engineering

Research theme for competitive and other funds (9)：

2022 - 2025 Optimal construction method and pile structure of marine foundation piles by the transparent ground technique and numerical analysis
2022 - 2025 Elucidation of ground infiltration failure mechanism by high-resolution transparent ground experiments and large-scale numerical simulation
2022 - 2025 Improvement of geological column and geotechnical site characterization technology by continuous sampling
2021 - 2025 深海底開発リスクを知るための深海底地盤工学創設に向けた原位置地盤計測手法の確立
2019 - 2023 Dynamic mechanism of turbidity current for long-distance sediment transport through integration of numerical science and high resolution measurement technique

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Papers (24)：

Keisuke Takahashi, Mari Kobayashi, Yuichiro Kawabata, Takafumi Kasaya, Mitsuyasu Iwanami, Toshiro Yamanaka, Shun Nomura, Hiroko Makita. Utilization of cement-based materials for deep sea infrastructure. 2023 IEEE Underwater Technology (UT). 2023
Minori Kyoi, Shun Nomura, Ippei Oshima, Daisuke Nishiura, Mikito Furuichi, Kazuo Tani. Experimental comparison between the turbidity and density currents. 2023
Shun Nomura, Giovanni De Cesare, Mikito Furuichi, Yasushi Takeda, Hide Sakaguchi. Spatio-temporal deposition profile of an experimentally produced turbidity current with a continuous suspension supply. INTERNATIONAL JOURNAL OF SEDIMENT RESEARCH. 2022. 37. 3. 299-306
Keisuke Takahashi, Yuichiro Kawabata, Mitsuyasu Iwanami, Mari Kobayashi, Takafumi Kasaya, Toshiro Yamanaka, Shun Nomura, Hiroko Makita. In-Situ Deep-Sea Monitoring of Cement Mortar Specimen at a Depth of 3515 m and Changes in Mechanical Properties after Exposure to Deep Sea Condition. Journal of Advanced Concrete Technology. 2022. 20. 3. 254-266
Keisuke Takahashi, Yuichiro Kawabata, Mari Kobayashi, Shinpei Gotoh, Shun Nomura, Takafumi Kasaya, Mitsuyasu Iwanami. Action of Hydraulic Pressure on Portland Cement Mortars - Current Understanding and Related Progress of the First-Ever In-Situ Deep Sea Tests at a 3515 m Depth. JOURNAL OF ADVANCED CONCRETE TECHNOLOGY. 2021. 19. 3. 226-239

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MISC (15)：

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Work history (3)：

2021/04 - 現在 Tokyo University of Marine Science and Technology
2015/04 - 2021/03 Japan Agency for Marine-Earth Science and Technology
2013/04 - 2015/03 Nihon University College of Science and Technology, Department of Civil Engineering

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