Yasuhiko Wakizaka scite author profile

It is impossible to distinguish slip surface clay from tectonic fault gouge based on only geological observation of surface of a drilled core. Then, half cut drilled core specimens prepared based on the resin fixing method were used to observe the slip surface clay and fault gouges in high-quality drilled cores in the landslide located in the Chichibu Belt in the Shikoku Central Mountain Region. Borehole inclinometers have detected cumulative displacements in this landslide. The results revealed fine structures such as composite planar fabric and asymmetric structures in finely crushed parts around the slip surface. In parts presumed to be slip surface clay, normal-fault sense was confirmed by the fine structure. Whereas in parts outside the slip surface, reverse-fault sense was confirmed by the composite planar fabric. Normal-fault sense in slip surface clay and reverse-fault sense in the other parts is consistent with those senses expected from the mechanisms of formation of a slip surface and tectonic faults in accretionary prism. Therefore, observing the fine composite planar fabric of a half cut core to evaluate the shear sense will be an effective method to distinguish slip surface clay from a fault gouge, which was formerly difficult to do simply by visually examining a drilled core surface.

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Alkali-Silica Reactivity of Aggregate in Japan Verified by 23-Year Exposure Test

Koga¹,

Hyakutake²,

Watanabe³

et al. 2013

J. JSCE, Ser. E2

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2 正会員土木研究所材料資源研究グループ新材料チーム(〒305-8516 茨城県つくば市南原1-6) 3 正会員土木研究所材料資源研究グループ基礎材料チーム(〒305-8516 茨城県つくば市南原1-6) 4 正会員土木研究所地質監(〒305-8516 茨城県つくば市南原1-6) 5 正会員土木研究所材料資源研究グループ新材料チーム(〒305-8516 茨城県つくば市南原1-6) 6 正会員元土木研究所材料資源研究グループ新材料チーム(〒305-8516 茨城県つくば市南原1-6) 我が国の様々な地域から収集された94種類の粗骨材を用いて作製され，23年以上屋外に暴露されていたコンクリート供試体を調査し，アルカリシリカ反応(以下，ASR)によるひび割れ等の発生状況を調べた．その結果，骨材の岩種とASRによるひび割れの発生割合は，従来の知見とおおむね合致していた．一方で，従来は反応性をほとんど有しないと考えられてきた半深成岩や中新世よりも古い火山岩類でも，ASRによると見られるひび割れが生じた場合があった．これらの骨材は遅延膨張性を有すると見られ，化学法やモルタルバー法で反応性を評価することは困難であった．また，アルカリ量を3kg/m 3 に調整した供試体について調査した結果，94種類の骨材のうち10種類では，ASRによるひび割れが生じていた．

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Yasuhiko Wakizaka

Alkali–silica reactivity of Japanese rocks

Alkali-silica reactivity of Japanese rocks

Characteristics of crushed rocks observed in drilled cores in landslide bodies located in accretionary complexes

Composite Planar Fabrics Capable of Distinguishing Between Slip Surface Clay and Fault Gauge

Alkali-Silica Reactivity of Aggregate in Japan Verified by 23-Year Exposure Test

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