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Investigation Report Aiming to Elucidate the Mechanism of Liquefaction Damage in the Muro District of Uchinada Town Due to the 2024 Noto Peninsula Earthquake (Part 2)
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- Kubota Shotaro
- Kawasaki Geological Engineering Co,. Ltd.
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- Ota Shiro
- Kawasaki Geological Engineering Co,. Ltd.
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- Ochi Yoshikazu
- Kawasaki Geological Engineering Co,. Ltd.
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- Imai Toshimune
- Kawasaki Geological Engineering Co,. Ltd.
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- Hazarika Hemanta
- Graduate School of Engineering, Kyushu University
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- Matsumoto Tatsunori
- Kanazawa University Professor Emeritus
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- Tanaka Tsuyoshi
- Department of Urban & Civil Engineering, Tokyo City University
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- Murai Masanori
- Shimizu Corporation
Bibliographic Information
- Other Title
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- 令和6年能登半島地震による内灘町室地 区の液状化被害メカニズム解明に向けた 調査報告(その2)
- レイワ 6ネン ノト ハントウ ジシン ニ ヨル ウチナダマチシツチク ノ エキジョウカ ヒガイ メカニズム カイメイ ニ ムケタ チョウサ ホウコク(ソノ 2)
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Description
In the Muro district of Uchinada Town, which suffered significant liquefaction damage during the 2024 Noto Peninsula Earthquake, PDC (Piezodrive Cone) surveys and EM (Electromagnetic) explorations were conducted as part of a fundamental study aimed at elucidating the mechanism of liquefaction damage. These investigations sought to understand the detailed ground conditions and create geological cross-sections. Surface wave surveys were also performed to assess the looseness of the surface layer based on the conductivity distribution, and these results were compared with the actual liquefaction damage to confirm consistency.
Journal
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- Journal of Japan Society for Natural Disaster Science
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Journal of Japan Society for Natural Disaster Science 43 (3), 641-648, 2024-11-30
Japan Society for Natural Disaster Science