GROUND IMPROVEMENT OF INTERMEDIATE RECLAIMED LAND BY COMPACTION THROUGH CAVITY EXPANSION OF SAND PILES
スポンサーリンク
概要
- 論文の詳細を見る
The crushed Tertiary Period mudstone used as the geomaterial for the artificial reclaimed land in the Joetsu Region of Japan consists of coarse and fine fractions of about 50% each and is classified as an "intermediate soil." Unlike sand or clay soils, no constitutive equations or sufficiently established design methods have been available until now for evaluating intermediate soils. This paper first utilizes the SYS Cam-clay model (Asaoka et al., 2002) to identify the soil profile of intermediate reclaimed land through comparison of laboratory test results with the calculated responses of the constitutive equation. Next, the soil profile obtained is used to carry out various soil-water coupled finite deformation analyses. The main conclusions reached are as follows: 1) The rates of decay/collapse of the soil structure, loss of overconsolidation, and evolution of anisotropy of the soil materials that constitute the Joetsu reclaimed land lie midway between those of typical sand and clay. 2) Ground improvement by cavity expansion of sand piles is effective in converting the reclaimed land from a highly structured ground having heavier overconsolidation to a lightly overconsolidated ground with a low degree of structure by increasing the confining pressures within the ground. In particular, the reduction in the specific volume of the soil elements in the vicinity of the sand piles becomes large. 3) In the case of small vertical displacement, the composite ground containing the sand piles exhibits a bearing capacity of about 1.5 times that of an unimproved ground, and in the case of large displacement, the bearing capacity is about 2 times larger.
- 社団法人地盤工学会の論文
著者
-
Yamada Eiji
Department Of Pathology Shiga University Of Medical Science School Of Medicine
-
Nakano Masaki
Department Of Civil Engineering Nagoya University
-
Noda Toshihiro
Department Of Civil Engineering Nagoya University
-
Yamada Eiji
Department Of Civil Engineering Nagoya University
-
Yamada Eiji
Department Of Child Development Kumamoto University School Of Medicine
関連論文
- Microstructure Analysis of High Coercivity PLD-Made Nd-Fe-B Thick-Film Improved by Tb-Coating-Diffusion Treatment
- Changes of lysosomal enzyme activity in aorta in spontaneously hypertensive rats (SHR).
- A NEW METHOD TO SELECTIVELY INJURE THE OPTIC NERVE USING ARGON-LASER PHOTOCOAGULATION
- Relationships between Changes in Oxygenation during Exercise and Recovery in Trained Athletes
- Inverse correlation of the up-regulation of FZD10 expression and the activation of β-catenin in synchronous colorectal tumors
- SOIL-WATER COUPLED FINITE DEFORMATION ANALYSIS BASED ON A RATE-TYPE EQUATION OF MOTION INCORPORATING THE SYS CAM-CLAY MODEL
- PROGRESSIVE CONSOLIDATION SETTLEMENT OF NATURALLY DEPOSITED CLAYEY SOIL UNDER EMBANKMENT LOADING
- Characterization of the Disposition of Lutein after i.v. Administration to Rats(Pharmacology)
- Changes in expression of p38 mitogen-activated protein kinase in the dorsal motor nucleus of the vagus nerve and hypoglossal nucleus after axotomy in adult rats
- SOME BEARING CAPACITY CHARACTERISTICS OF A STRUCTURED NATURALLY DEPOSITED CLAY SOIL
- EXPLANATION OF CYCLIC MOBILITY OF SOILS : APPROACH BY STRESS-INDUCED ANISOTROPY
- HISTOCHEMICAL STUDY ON 5'-NUCLEOTIDASE IN THE CEREBROVASCULAR SYSTEM IN STROKE-PRONE SPONTANEOUSLY HYPERTENSIVE RATS
- CYTOCHEMICAL INVESTIGATION ON ACID PHOSPHATASE ACTIVITY IN CEREBRAL ARTERIES IN SPONTANEOUSLY HYPERTENSIVE RATS
- ALKALINE PHOSPHATASE ACTIVITY IN CEREBRAL BLOOD VESSELS OF SPONTANEOUSLY HYPERTENSIVE RAT : The Second Report of Enzyme Histochemical Studies of SHR Brain
- ACID PHOSPHATASE ACTIVITY OF THE BRAIN IN SHR : The First Report of Enzyme Histochemical Studies of spontaneously Hypertensive Rat Brain
- A Comment on a New Interpretation of the Chiral Anomaly
- Chronic fatigue syndrome in childhood
- Eight Quark Model with Modified Left-Handed Currents
- Online Frequency Estimation using Power Series Type Wavelet Transform
- GROUND IMPROVEMENT OF INTERMEDIATE RECLAIMED LAND BY COMPACTION THROUGH CAVITY EXPANSION OF SAND PILES
- Natural Chiral SU(2)×SU(2) Symmetry and Electron Mass in the SU(2)×U(1) Gauge Model
- A Comment on Spontaneous Breaking of Chiral Symmetry
- CO-SEISMIC AND POST-SEISMIC BEHAVIOR OF AN ALTERNATELY LAYERED SAND-CLAY GROUND AND EMBANKMENT SYSTEM ACCOMPANIED BY SOIL DISTURBANCE
- A Comment on Hermitian Conjugate of Mobius Transformation
- Some Remarks on Null-Plane Quantization
- Chiral Symmetry Breaking and K^0_S→2π Decay
- Protective effect of lutein on ischemia-reperfusion injury in rat small intestine.
- Antioxidant Activity of a Novel Extract from Bamboo Grass (AHSS) against Ischemia-Reperfusion Injury in Rat Small Intestine(Pharmacology)
- On the Two-Body Bound Problem of Dirac Particles
- Hot-water-extracts of Polygonum Multiflorum Do Not Induce Any Toxicity but Elicit Limited Beneficial Effects on the Liver in Mice
- Test of Ferroelectricity in Non-stretched Poly(vinylidene fluoride)/Clay Nanocomposites
- Histochemical Study on Oxidative Enzyme Activity in Brain, Particularly of Astrocytes of Spontaneously Hypertensive Rats
- Elastase in Aorta in SHR-SP
- Lysosomal enzyme activity in the arterial system in SHRSP:Acid phosphatase activity
- Histochemical study on lysosomal enzyme activities in the endothelial monolayer preparations from SHRSP
- Proliferative Property of the Microvessels of SHRSP Brains
- Effect of Antihypertensive Drugs on Acid Phosphatase Activity in Aorta in SHR:a preliminary report
- Lysosomal enzyme activities in the cerebral microvessels of SBR-SP
- Quantitative and Histochemical investigation of membrane-bound enzymes in the cerebral microvessels in SHR-SP
- Aortic Proteases in Hypertensive Rats
- Elastase and Collagenase Activities in The Aorta in SHRSP
- Lysosomal Enzyme Activities in the Cerebral Cortex and Subcortical White Matter of SHRSP