吉見 吉昭 | Tokyo Institute of Technology
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概要
関連著者
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吉見 吉昭
Tokyo Institute of Technology
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時松 孝次
Tokyo Institute of Technology
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吉見 吉昭
東京工業大学
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桑原 文夫
日本工業大学工学部建築学科
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牧原 依夫
(株)東京ソイルリサーチ
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牧原 依夫
Tokyo Soil Research Co., Ltd.,
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桑原 文夫
Nippon Institute of Technology
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細川 義隆
Takechi Engineering Co., Ltd.,
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細川 義隆
Takechi Engineering Co. Ltd.
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安田 進
九州工業大学
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有泉 浩蔵
東京電力
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龍岡 文夫
東京大学工学部土木工学科
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大岡 弘
Building Research Institute Ministry Of Construction
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山崎 勉
(株)間組技術研究所第二部
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龍岡 文夫
Institute of Industrial Science, University of Tokyo
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安田 進
Kisojiban Consultants, Co., Ltd.,
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土岐 祥介
Hokkaido University
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三浦 清一
Muroran Institute of Technology
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時松 孝次
Research Associate, Tokyo Institute of Technology
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金子 治
Nuclear Power Division, Toda Construction Co., Ltd.,
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土岐 祥介
Professor Division Of Civil Engineering Faculty Of Engineering Hokkaido Institute Of Techniligy Sapp
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龍岡 文夫
Institute Of Industrial Science University Of Tokyo
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吉見 吉昭
Professor Emeritus Tokyo Institute Of Technology Tokyo
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吉見 吉昭
Professor Tokyo Institute Of Technology
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桑原 文夫
Tokyo Inst. of Tech.
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有泉 浩蔵
Tokyo Electric Power Co., Ltd.
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山崎 勉
Hazama-gumi, Ltd.
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田中 敬三
Tokyo Institute Of Technology
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保坂 吉則
Niigata Prefectural Office Nagaoka
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Yoshimi Y
Shimizu Corporation
著作論文
- CYCLIC UNDRAINED TRIAXIAL STRENGTH OF SAND BY A COOPERATIVE TEST PROGRAM
- UNDRAINED CYCLIC SHEAR STRENGTH OF A DENSE NIIGATA SAND
- LARGE-SCALE CYCLIC SHEAR BIN TO EVALUATE METHODS FOR MITIGATING LIQUEFACTION HAZARD
- LARGE-SCALE CYCLIC SHEAR BIN TO EVALUATE METHODS FOR MITIGATING LIQUEFACTION HAZARD
- EFFECT OF SUBSURFACE LIQUEFACTION ON THE STRENGTH OF SURFACE SOIL
- EVALUATION OF LIQUEFACTION RESISTANCE OF SAND IMPROVED BY DEEP VIBRATORY COMPACTION
- SOIL LIQUEFACTION EVALUATIONS BY ELASTIC SHEAR MODULI
- INFLUENCE OF DEGREE OF SHEAR STRESS REVERSAL ON THE LIQUEFACTION POTENTIAL OF SATURATED SAND
- LIQUEFACTION RESISTANCE OF A PARTIALLY SATURATED SAND
- EMPIRICAL CORRELATION OF SOIL LIQUEFACTION BASED ON SPT N-VALUE AND FINES CONTENT
- EVALUATION OF LIQUEFACTION RESISTANCE OF CLEAN SANDS BASED ON HIGH-QUALITY UNDISTURBED SAMPLES
- PORE PRESSURE DISSIPATION RATIO FOR A NONLINEAR CONSOLIDATION PROBLEM