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Pore Size Distribution of Pusan Clay Measured by Mercury Intrusion Porosimetry
Enebish Ninjgarav,Sung-Gyo Chung,Woo-Young Jang,Choon-Kil Ryu 대한토목학회 2007 KSCE JOURNAL OF CIVIL ENGINEERING Vol.11 No.3
Little atention was paid to the micro-structural investigation, although a number of geotechnical investigations have beenperformed on Pusan clay since early 1990s. Particularly, pore size distribution (PSD) which affects permeability, consolidation,and strength and so on has seldom been investigated on the clay. In order to examine the PSD during consolidation, mercuryintrusion porosimetry (MIP) investigation was carried out on intact clay and also the one-dimensional consolidated clays withthand also the change with the applied consolidation stress levels. It was recognized that the PSD are remarkably diferent for theuper and lower clays, but the compresion occurred during consolidation stress is dominantly resulted from a decrease in theinter-aggregate (large) pore spaces (larger than 2 m in diameter). Moreover, characteristics of the PSD were effectivelyrepresented by the mean pore size (Dp50).
Pore Size Distribution of Pusan Clay Measured by Mercury Intrusion Porosimetry
Enebish Ninjgarav,Sung-Gyo Chung,Woo-Young Jang,Choon-Kil Ryu 대한토목학회 2007 KSCE journal of civil engineering Vol.11 No.3
Little attention was paid to the micro-structural investigation, although a number of geotechnical investigations have been performed on Pusan clay since early 1990s. Particularly, pore size distribution (PSD) which affects permeability, consolidation, and strength and so on has seldom been investigated on the clay. In order to examine the PSD during consolidation, mercury intrusion porosimetry (MlP) investigation was carried out on intact clay and also the one-dimensional consolidated clays with various stress levels, as well as scanning electron microscope (SEM). As the result, the PSD of intact clay was observed in depth and also the change with the applied consolidation stress levels. It was recognized that the PSD are remarkably different for the upper and lower clays, but the compression occurred during consolidation stress is dominantly resulted from a decrease in the inter-aggregate (large) pore spaces (larger than 2 urn in diameter). Moreover, characteristics of the PSD were effectively represented by the mean pore size (Dp50).