LYU Zhilin, JIANG Xu, QIANG Xuhong, SUN Kai, DONG Hao. Feasibility Research on Strengthening Damaged Steel Structure with Self-Stress SMA[J]. INDUSTRIAL CONSTRUCTION, 2022, 52(6): 174-182. doi: 10.13204/j.gyjzG20100301
Citation:
Wu Rui-qian, Xie Kang-he, Chen Xian-hua, Qian Wei-biao. EXPERIMENTAL RESEARCH ON STABILIZATION OF RED CLAY WITH CEMENT AND FLYASH[J]. INDUSTRIAL CONSTRUCTION , 2006, 36(7): 29-31,24. doi: 10.13204/j.gyjz200607006
LYU Zhilin, JIANG Xu, QIANG Xuhong, SUN Kai, DONG Hao. Feasibility Research on Strengthening Damaged Steel Structure with Self-Stress SMA[J]. INDUSTRIAL CONSTRUCTION, 2022, 52(6): 174-182. doi: 10.13204/j.gyjzG20100301
Citation:
Wu Rui-qian, Xie Kang-he, Chen Xian-hua, Qian Wei-biao. EXPERIMENTAL RESEARCH ON STABILIZATION OF RED CLAY WITH CEMENT AND FLYASH[J]. INDUSTRIAL CONSTRUCTION , 2006, 36(7): 29-31,24. doi: 10.13204/j.gyjz200607006
EXPERIMENTAL RESEARCH ON STABILIZATION OF RED CLAY WITH CEMENT AND FLYASH
1.
1. Department of Civil Engineering,Zhejiang University Hangzhou 310027;
2.
2. Department of Civil Engineering,Guilin Institute of Technology Guilin 541004;
3.
3. Shaoxing Engineering Quality Supervision Station Shaoxing 312000
Received Date: 2006-02-16Publish Date:
2006-07-20
Abstract
There are some questions of stabilizing some red clay foundations with only cement.The method of utilizing cement and additional flyash is considered to stabilize red clay.Through the laboratory experiment compressive strength of red clay sample with different mixing ratio of cement and flyash is tested at different ages,and the reinforced mechanism of cement and flyash on red clay is analyzed and probed.The results show that the strength of stabilized soil is increased with the increase of cement and flyash mixing ratio and curing age.Furthermore,cement and flyash affect the sample strength differently at early,middle and later curing ages.
References
[2] 林斌.电厂粉煤灰改良回填土力学性能的研究.西安矿业学院学报,1999,19:72-75
《地基处理手册》编委会.地基处理手册.北京:中国建筑工业出版社,1988:399-452
[3] 李文清.粉煤灰中的微珠特征及形成机理探讨.环境工程,1997,15(4):51-56
[4] 张明,白晓红.粉煤灰在深层搅拌桩中的应用.太原理工大学学报,2001,32(1):78-80
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