Experimental Study on Engineering Properties of Cemented Sand and Gravel

Hua Fu; Jian Gang Feng; Hua Qiang Han; Hua Ling

doi:10.4028/www.scientific.net/AMM.580-583.1846

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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 580-583Experimental Study on Engineering Properties of...

Experimental Study on Engineering Properties of Cemented Sand and Gravel

Abstract:

The static and dynamic triaxial shear tests and deformation tests on CSG (cemented sand and gravel) are conducted with different amount of added cementing materials. The mechanical indexes and parameters have obvious increments with mixing of cementing material and accumulation of curing days. However the increments will become mild with further adding of cementing material. The deformation curve of CSG test sample is similar to the curve of sand-gravel sample without mixing with any cementing material, and they both follow the trend of semi-logarithmic decrement law. The dynamic permanent deformation of CSG increases with the increments of confining pressure, consolidation stress and dynamic stress. Thus this deformation still can be calculated using the constitutive model of dynamic residual deformation proposed by Zhujiang Shen Academician.

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Periodical:

Applied Mechanics and Materials (Volumes 580-583)

Pages:

1846-1851

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.580-583.1846

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Online since:

July 2014

Authors:

Hua Fu, Jian Gang Feng, Hua Qiang Han, Hua Ling

Keywords:

Cemented Sand and Gravel, Static-Dynamic Property

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References

[1] Raphael . J .M. The Optimum Gravity Dam, Rapid Construction of Concrete Dams[C]. ASCE, New York, (1970).

Google Scholar

[2] Londe P, Lino M. Hardfill Dam, The Faced Symmetrical Hardfill Dam: a New Concept for RCC[J]. International Water Power & Dam Construction. 1992, 44(2): 19-24.

Google Scholar

[3] Shuyuan Lu, Xinjun Tang. A brief introduction to a novel dam type-Face cenment rockfill dam[J]. Journal of Yangtze River Scieitific Research Institute. 1998, 15(02): 54-56.

Google Scholar

[4] Shihua Yang. Lin Yishan selected papers of water treatment [M], 1981, 562-575.

Google Scholar

[5] D.G. Coumoulos and T.P. Koryalos, Lean RCC dams—laboratory testing methods and quality control procedure during construction[C]. Madrid: Proceedings 4th international Symposiumon Roller Compacted Concrete Dams, 2003 : 233-238.

DOI: 10.1201/9780203741276

Google Scholar

[6] S. Batmaz, Clidere dam-107m high roller compacted dam(RCHD) in Thrkey[C]. Madrid: Proceedings 4th international Symposium on Roller Compacted Concrete Dams, 2003: 121-126.

DOI: 10.1201/9780203741276

Google Scholar

[7] A.F. Gurdil, and S. Batmaz, Structural design of Cindere Dam[C]. Madrid: Proceedings 4th international Symposium on Roller Compacted Concrete Dams, 2003: 439-446.

Google Scholar

[8] Y. Hattori, et al, Construction of a sediment trap Dam using CSG conctete[J]. Dam Technology, 1993, 150(3): 50-58.

Google Scholar

[9] Nagayama, et al, Development of the CSG construction method for sediment trap dams[J]. Civil Engineering Journal, 1999, 41(7): 6-17.

Google Scholar

[10] Zhongming Teng, Trapezoid CSG dam and material properties[J], International Hydropower, 2005, (3): 39-42.

Google Scholar