Soil Analysis on Prediction of Consolidation Settlement in Marine Clays

항만점토(港灣粘土)의 압밀심하량(壓密沈下量) 예측(預測)을 위(爲)한 토질분석(土質分析)

This study was performed in order to contemplate their correlations between physical and mechanical properties of the marine clays which were collected from main harbors in Korea. The results obtained are as follows: 1. Most of the soils in experimental districts consist of CH. CL. and ML. and they are considered to be still proceeding. 2. The equations of the relationship between compression index and liquid limit are as, follows: CH : $C_c=0.0137$ (LL-22.60) CL : $C_c=0.0123$ (LL-14.64) 3. The relationship between compression index and initial void ratio appears that the higher the plasticity, the easier the slope of the regression line. The equations are as follows : CH : $C_c=0.431$ ($e_o-0.504$) CH : $C_c=0.471$ ($e_o-0.235$) ML : $C_c=0.641$ ($e_o-0.393$) 4. The equations of the relationship between compression index and natural water content are as follows: CH : $C_c=0.0133$ ($W_n-28.27$) CL : $C_c=0.0225$ ($W_n-23.56$) ML : $C_c=0.0106$ ($W_n-16.42$) 5. The relationship between initial void ratio and natural water content, and compression index is highly positive correlation and the equations are as follows : CH : $C_c=0.301$ ($e_o+0.017W_n-1.05$) CL : $C_c=0.141$ ($e_o+0.0567W_n-1.054$) ML : $C_c=0.421$ ($e_o+0.0214W_n-1.121$) 6. The equations of the relationship between initial void ratio and liquid limit, and compression index are as follows : CH : $C_c=0.36$ ($e_o+0.08LL-0.819$) CL : $C_c=0.269$ ($e_o+0.026LL-0.929$) 7. The cohesion of marine clays is no concerned with the increment of depth. The equations of relationship between cohesion and unconfined compression strength are as follows. CH : qu=1.896C+0.0107 CL : qu=1.849C+0.04.

본(本) 연구(硏究)에서는 주요(主要) 항만(港灣)에서 채취(採取)한 해성점토(海性粘土)에 대(對)하여 각종(各種) 공학력(工學力) 성질(性質)들을 측정(測定)하여 이들의 상호관계(相互關係)를 분석(分析) 고찰(考察)하였는바 그 결과(結果)를 요약(要約)하면 다음과 같다. 1. 본(本) 시험지구(試驗地區)의 흙은 대구분(大部分)이 CH, CL, ML로 구성(構成)되어 있으며 초기압밀(初期壓密)이 진행중(進行中)인 것으로 사료(思料)된다. 2. 압축지수(壓縮指數)와 액성한계(液性限界)의 관계식(關係式)은 다음과 같다. CH : $C_c=0.0137$ (LL-22.6) CL : $C_c=0.0123$ (LL-14.64) 3. 압축지수(壓縮指數)와 초기간극비(初期間隙比)의 관계(關係)는 소성(塑性)이 높은 흙 일수록 기울기가 완만하였으며 그 관계식(關係式)은 다음과 같다. CH : $C_c=0.431$ ($e_o-0.504$) CH : $C_c=0.471$ ( $e_o-0.235$) ML : $C_c=0.641$ ($e_o-0.393$) 4. 압축지수(壓縮指數)와 자연함수비(自然含水比)의 관계식(關係式)은 다음과 같다. CH : $C_c=0.0133$ ($W_n-28.27$) CL : $C_c=0.0225$ ($W_n-23.56$) ML : $C_c=0.0106$ ($W_n-16.42$) 5. 초기간극비(初期間隙比) 및 자연함수비(自然含水比)와 압축지수(壓縮指數)의 관계(關係)는 높은 정(正)의 상관(相關)으로 그 관계식(關係式)은 다음과 같다. CH : $C_c=0.301$ ($e_o+0.017W_n-1.05$) CL : $C_c=0.141$ ($e_o+0.0567W_n-1.054$) ML : $C_c=0.421$ ($e_o+0.0214W_n-1.121$) 6. 초기간극비(初期間隙比) 및 액성한계(液性限界)와 압축지수(壓縮指數)의 관계식(關係式)은 다음과 같다. CH : $C_c=0.36$ ($e_o+0.08LL-0.819$) CL : $C_c=0.269$ ($e_o+0.026LL-0.929$) 7. 해성점토(海性粘土)의 점착력(粘着力)은 심도(深度)와 상관성(相關性)이 없으며 일축압축강도(一軸壓縮强度)와의 관계식(關係式)은 다음과 같다. CH : qu=1.896C+0.0107 CL : qu=1.849C+0.04.