Research on Direction of Wet-Chemical Model of Loess

Yan Wang; Yu Ding Hu

doi:10.4028/www.scientific.net/AMR.201-203.2833

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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 201-203Research on Direction of Wet-Chemical Model of...

Research on Direction of Wet-Chemical Model of Loess

Abstract:

This article analyzes the strength theory and mathematic model in the mechanical property and project feature of the loess at home and abroad since fifty years, combining with the condition and require of the engineering and brings forward easy and operational wet-chemical model to guide the actual project construction.

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Periodical:

Advanced Materials Research (Volumes 201-203)

Pages:

2833-2836

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.201-203.2833

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Online since:

February 2011

Authors:

Yan Wang, Yu Ding Hu

Keywords:

Loess, Matric Suction, Stress Strain, Wet-Chemical Model

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References

[1] Dingyi Xie. The Past, Present and Future of the Research on Mechanical Characteristics and Application of Loess, Underground Space, 1999, 19(4), In Chinese.

Google Scholar

[2] Guangxin LI. Characteristics and development of Tsinghua Elasto-plastic Model for soil [J]., Chinese Journal of Geotechnica Engineering, 2006, 28(1), In Chinese.

Google Scholar

[3] Matsuoka H, Yao Y P , Sun D A. The Cam－clay models revised by the SMP criterion. Soils and Foundations , 1999 , 39(1) : 81.

DOI: 10.3208/sandf.39.81

Google Scholar

[4] D.G. Fred Lund, H. Rahardjo. Unsaturated soil mechanics[M]. Chen zhong-yi, Zhang Zai-ming, Chen Yi-jiong translate. Beijing：China Building Industry Press, (1997).

Google Scholar

[5] Zhujiang Shen. Exploitation of practical use of unsaturated soil mechanics [J]. Chinese Journal of Geotechnica Engineering, 2006, 28(2)：256-259, In Chinese.

Google Scholar

[6] Yangping Yao. Non-linear strength theory and its transformation of generalized stress space [J]. Science in China Ser. E Engineering & Materials Science, 2004, 34(11)：1283-1299, In Chinese.

Google Scholar

[7] De'An Sun. Testing and elastoplastic modeling on unsaturated soil[J]. Department of civil Engineering. Nagoya Institute of Technology. Nagoya 466-8555. Japan.

Google Scholar

[8] Fredlund D G, Vanapalli S K, Xing A, Pufahl D E. Predicting the shear strength for unsaturated soils usingthe soil-water characteristic curve[A]. Proc. 1st Int. Conf. Unsaturated Soils[C]. Paris: [s. n. ], 1995. 63-69.

DOI: 10.1201/b10526-31

Google Scholar

[9] Matsuoka H, Sun D A , Yao Y P. 32D failure and yield criteria for geomaterials based on"Spatially Mobilized Plane (SMP) ". In : Proc Int Symp on Strength Theories : Applications and Develop2 ments . edited by YU M H, Fan S Beijing : Science Press , 1998 , 259～266.

Google Scholar

[10] Fredlund D G, Rahadjo H. Soil mechanics for unsaturated soil. New York : John Wily &Sons , 1993. 235～289.

Google Scholar