This research is to investigate the self-weight consolidation settlement and desiccation shrinkage settlement of soft marine dredging clay by performing numerical and experimental works. Large column test were carried out investigate the consoli...
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https://www.riss.kr/link?id=A3429049
2000
Korean
500.000
KCI등재후보
학술저널
93-100(8쪽)
0
상세조회0
다운로드다국어 초록 (Multilingual Abstract)
This research is to investigate the self-weight consolidation settlement and desiccation shrinkage settlement of soft marine dredging clay by performing numerical and experimental works. Large column test were carried out investigate the consoli...
This research is to investigate the self-weight consolidation settlement and desiccation shrinkage settlement of soft marine
dredging clay by performing numerical and experimental works. Large column test were carried out investigate the
consolidation settlement considering effect of the self-weight and desiccation shrinkage, and centrifuge model test was also
carried out investigate self-weight consolidation settlement. Results of centrifuge model and large column experiments about
changes of settlement with time were analyzed by using the numerical technique of explicit finite difference method
considering effect of the self-weight and desiccation based on the finite strain consolidation theory. Centrifuge model test
results were in relatively good agreements with analyzed results in terms of self-weight consolidation settlement with time.
Large column test results showed quite different values from the numerically estimated one, carried by experimental
conditions.
알칼리 내성 Bacillus sp.에 의한 생물 고분자의 희석용액 특성
암반내 A.E 계측 자료의 처리를 위한 신경 회로망의 적용성 연구