Primary Consolidation Theory of Saturated Soft Clay
-
摘要: 对饱水软粘土的预压排水主固结研究应从其排水的本质出发, 即从软土在预压过程的含水量变化上研究主固结量的变化规律, 利用土的基本性质指标导出主固结比基本公式及主固结量(沉降量)、绝对主固结量、绝对固结度等理论计算方法.与传统的算法不一样的地方是这些算法与预压荷载(即固结应力) 无关系, 直接计算出主固结的效果及评价预压排水固结地基处理卸载的可行性.利用上述基本公式亦可导出剩余主固结量、主固结速率等计算式.通过实例的分析, 证明上述理论方法与观测的数据基本相符.Abstract: Study on primary consolidation of saturated soft clay under pre-loading drainage condition should be started with its drainage in nature, i.e., study the variation discipline of primary consolidation by its water content variation of soft clay through the pre-loading course, utilizing the basic property index of clay, then deduce the primary consolidation ration formula and get the theoretical calculation solution of primary consolidation (settlement), absolute primary consolidation, as well as absolute consolidation degree. The algorithmic difference compared with the traditional one is that this arithmetic is independent of pre-load (consolidation stress) and can calculate the primary consolidation effect and assess the unloading feasibility straightforwardly. It also can be draw the formula of residual primary consolidation and consolidation speed with above basic formula. By analysis with project examples, it was testified the theory was in accordance with principle with real data obtained by observation.
-
Key words:
- soft clay /
- primary consolidation ration /
- absolute primary consolidation /
- pre-loading
-
图 1 两相土的主固结物理模型
a.软土(两相体) 初始状态; b. t时间排水后主固结状态; 1.固结颗粒; 2.自由液态水; 3.结合水; 4.排出自由液态水后主固结体积
Fig. 1. Physical model of primary consolidation on two phases soil
-
Chen, Z. Y., Zhou, J. X., Wang, H. J., etal., 2000. Soilme chanics. Tsinghua University Press, Beijing, 143-157 (inChinese). Gao, D. Z., 1992. Theory and practice of soft soil foundation. China Construction Industry Press, Beijing, 94-105 (in Chinese). Huang, W.X., 1984. Soil engineering property. Hydrolic and Electrical Press, Beijing, 138-139, 161-168(in Chinese). Shen, X.Y., 1984. Studies of environmental engineering geology on subsidence of cities at Yangtze River delta and neighbouring seashore plains of China. Proceedings of 27th International Geological Congress, Section 17 (C17)Engineering Geology, Mosco. Shen, X.Y., Sun, S.W., 1996. The studies of the geotechnical properties of marine muck and its improvement methods of great area in Shenzhen, China. General Proceedings of 30th International Geological Congress, Beijing, 126. Shen, X.Y., Yu, F., 1999. Preliminary engineering design of sea backfill and ground improvement of project Shenzhen-Hongkong West Bridge Custom. Shenzhen Survey Research Institute(in Chinese). Shen, X.Y., Zhou, H.T., Wang, Y.Q., 2002. Construction documents design of sea backfill and ground improvement of project Shenzhen-Hongkong West Bridge Custom. Shenzhen Survey Research Institute(in Chinese). Sun, B.Y., Luo, Q.Y., 1999. Thesis volume of 4th conference on soft ground consolidation techniques by plastic plate and drainage method. Hohai University Press, Nanjing, 154 -161(in Chinese with English abstract). Tan, S. L., 2002. Analyses of abrupt gush problem of soil and water based on strength of soil body in building foundation pit. Earth Science—Journal of China University of Geosciences, 27(2): 209 -211(in Chinese with English abstract). Tang, D.X., Sun, S.W., 1990. Engineering geotechnics. Geological Publishing House, Beijing, 36-41, 62-68, 70-71(in Chinese). Yuan, W.M., He, K.S., 1999. Sample volume of projects soft ground consolidation by plastic plate and drainage method. People Communication Press, Beijing, 199-209 (in Chinese). Zeng, G.X., Gong, X.N., 1993. Ground improvement manual. China. Construction Industry Press, Beijing, 45-80 (in Chinese). Zhang, K.C., Qiu, J.J., 2000. Theory and practice of geotechnical engineering in Shenzhen, China. China Construction Industry Press, Beijing, 305 -310(in Chinese). Zhang, P., Zheng, J.C., 2004. Thesis volume of Shenzhen Municipal Engineering Design Institute. Shenzhen, 174 -185(in Chinese). Zhe, X.S., 1999. Settlement calculation on soft ground foundation. People Communication Press, Beijing, 104 -119 (in Chinese with English abstract). Zhou, H.T., Dai, J., 2002. Thesis volume of 7th conference on ground treatment. China Water Power Press, Beijing, 8-14(in Chinese). 陈仲颐, 周景星, 王洪瑾, 等, 2000. 土力学. 北京: 清华大学出版社, 143-157. 高大钊, 1992. 软土地基理论与实践. 北京: 中国建筑工业出版社, 94-105. 黄文熙, 1984. 土的工程性质. 北京: 水利电力出版社, 138-139, 161-168. 沈孝宇, 于芳, 1999. 深港西部通道口岸场坪填海及地基处理工程初步设计. 深圳市勘察研究院. 沈孝宇, 周洪涛, 王勇强, 2002. 深港西部通道口岸场坪填海及地基处理工程施工图设计. 深圳市勘察研究院. 孙伯永, 罗庆裕, 1999. 第四届塑料板排水法加固软基技术研究会论文集. 南京: 河海大学出版社, 154-161. 谭松林, 2002. 考虑土体强度的建筑基坑突涌问题分析. 地球科学———中国地质大学学报, 27 (2): 209-211. https://www.cnki.com.cn/Article/CJFDTOTAL-DQKX200202020.htm 唐大雄, 孙愫文, 1990. 工程岩土学. 北京: 地质出版社, 36-41, 62-68, 70-71. 袁文明, 何开胜, 1999. 塑料板排水法加固软基工程实例集. 北京: 人民交通出版社, 199-209. 曾国熙, 龚晓南, 1993. 地基处理手册. 北京: 中国建筑工业出版社, 45-80. 张旷成, 丘建金, 2000. 深圳地区岩土工程的理论与实践. 北京: 中国建筑工业出版社, 305-310. 张平, 郑建昌, 2004. 深圳市市政工程设计院论文集. 深圳, 174-185. 折学森, 1999. 软土地基沉降计算. 北京: 人民交通出版社, 104-119. 周洪涛, 代军, 2002. 第七届全国地基处理学术讨论会论文集. 北京: 中国水利水电出版社, 8-14. -
下载:
点击查看大图
图(2)
计量
- 文章访问数: 3530
- HTML全文浏览量: 522
- PDF下载量: 11
- 被引次数: 0
