Effect of Chemical Admixtures on the Strength of Dian Chi Peat Soil

Xing Qi Dou; Ming Shan Wang; Chi Hao Li; Qing Qing Guan

doi:10.4028/www.scientific.net/AMR.1079-1080.148

Paper Titles

Research on Optimizing Parameters for Suppressing Vibration of MSCSS under Earthquake Excitation
p.131

Research on Stiffness Damage of Simply Supported Beam after Fire
p.135

Study of Simulation the Different Heating End for Thermal Environment in Atrium in Passive Buildings
p.140

Affect the Linkage Vibration Characteristic Parameter Analysis and Research
p.144

Effect of Chemical Admixtures on the Strength of Dian Chi Peat Soil
p.148

Evaluation of Service Performance of Recycled SBS Modified Asphalt Pavement
p.152

Formation Mechanism and Treatment of the Mudstone Landslide of Xi'an-Baoji Expressway, China
p.156

Low Reversed Cyclic Loading Test for New Precast Concrete Beam to Column Connection
p.160

Study on the Creep Parameters of Salt Rock Constitutive Function
p.166

HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 1079-1080Effect of Chemical Admixtures on the Strength of...

Effect of Chemical Admixtures on the Strength of Dian Chi Peat Soil

Abstract:

This article focuses on peat soil ofthe region of the Dian Chi Lake inKunming, the peat soil as research subject. This paperstudy on unconfined compressive strength test of solidifiedpeat soil mainly. In the experimental study of chemical admixtures curing peatsoil, the test hadeight groups. The experimental study of cement soil of different kindsof additives, and study the impact of additives on curing peat soil. It was concluded that the regularof cement soil compressive strength with the increases of chemical admixtureand curing time.

You might also be interested in these eBooks

Civil, Materials and Computing Engineering

View Preview

Info:

Periodical:

Advanced Materials Research (Volumes 1079-1080)

Pages:

148-151

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.1079-1080.148

Citation:

Cite this paper

Online since:

December 2014

Authors:

Xing Qi Dou*, Ming Shan Wang, Chi Hao Li, Qing Qing Guan

Keywords:

Cement Soil, Dian Chi, Peat Soil, Unconfined Compressive Strength

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

* - Corresponding Author

References

[1] Guan Bao Ye, Wang Chun Chen et al. Indoor test of additives of cement soil [J]. Journal of China Highway, 2006, 19, (5): 12~15.

Google Scholar

[2] Xin Huang, Tong an Hu, Industrial waste gypsum in Foundation Reinforcement [J]. Industrial Buildings, 1994, (9): 24~28.

Google Scholar

[3] Yong Xun. Experimental study on soft soil cement solidifying agent containing industrial waste reinforcement [J]. Journal of geotechnical engineering, 2000, 22, (2): 210~213.

Google Scholar

[4] Yu fang Shao. The west lake dredging sludge solidification test [J]. Journal of Jiangsu university, 2007, 28, (5): 442~445.

Google Scholar

[5] Peng fei Zheng. The peat soil foundation was reinforced by cement and phosphogypsum and analysis [J]. Modern highway, 2011, (15): 152~154.

Google Scholar

[6] Ya xian Cao, Lei Zhang et al. Experimental study on mechanical properties of polypropylene fiber silica fume cement soil [J]. Yellow People, 2012, 34, (2): 118~120.

Google Scholar

[7] Yi xin Tang, Han Long Liu, Wei Zhu. Experimental study on engineering properties of cement solidified soil [J]. Journal of Geotechnical Engineering, 2000, 22, (5): 549~554.

Google Scholar

[8] Si Li Chen, Xian Ting Feng, Hui zhou. Test of three axial compression mechanical effects of sandstone under chemical corrosion [J]. Northeastern University (Natural Science), 2003, 23, (3): 292~295.

Google Scholar

[9] Si Li Chen, Xian Ting Feng, Shao Feng Li. zed soil [J]. Journal of Geotechnical Engineering, 2000, 22, (5): 549~554.

Google Scholar

[10] Si Li Chen, Bao Guan Ning. Experimental study on Environmental erosion effect of cement soil [J]. New building materials, 2006, (6): 40~42.

Google Scholar

[11] Bao Guan Ning, Si Li Chen. The unconfined compressive strength of cemented soil chemical erosion test [J]. Rock and soil mechanics, 2005, 26, (4): 600~603.

Google Scholar

[12] Yong Xun. Effect of organic matter content on the strength of cement soil and Counrmeasures [J]. Scientific research in Sichuan building, 2000, 26, (3): 58~60.

Google Scholar