Experimental Research on Coal Gangue Grouting Material for Gob Filling

Tian Feng Gu; Zhong Di Sun; Feng Tao Luo; Kang Guo; Ya Ming Liu; Li Feng; Qi Qi Zhang

doi:10.4028/www.scientific.net/AMM.357-360.1158

Paper Titles

Experimental Study on the Axial Compressive Strength and Elastic Modulus of GHPFRCC
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Mixture Ratio Design of Inorganic Polymer Concrete and the Study of Expansive Performance
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Shrinkage and Cracking Behavior of Cement Based Materials Containing Undercalcined MgO-Based Expansive Agent
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The Research of the Effect of Fly Ash on the Shrinkage Property of Commercial Concrete
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Experimental Research on Coal Gangue Grouting Material for Gob Filling
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The Study for Concrete Frost Resistance Durability under the Action of Multiple Factors
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Property of Water-Reducing and Crystallization on Superplasticize of the Concrete
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Study on the Factors of Influence on the Production Process of Coal Gangue Sintered Brick
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A Study on Modified Methylnaphthalene Sulfonate Formaldehyde Condensates: Synthesis, Structures and Asphalt Emulsification
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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 357-360Experimental Research on Coal Gangue Grouting...

Experimental Research on Coal Gangue Grouting Material for Gob Filling

Abstract:

Grouting fill is one of the main methods of coal gob treatment. The grouting properties directly affect the effect of grouting treatment. Cement-fly ash grout is widely used in the treatment of coal gob. But in many gob grouting fill projects, due to the lack of fly ash, we need to look for other low-cost grouting materials. Study was made through laboratory experiment on the properties of cement-coal gangue materials used for the gob grouting. In this paper, the correlation of water-solid ratio, cement content, admixture, concretion compression strength, setting time, viscosity, water segregation rate and hardening rate is discussed in the case of use of large gangue content cement. The test results show that compared with the grout not go through the activation process, the blended cement grout mixed with coal gangue powder activated by low temperature and mechanical crushing has high concretion compression strength. Water glass has a great effect on the viscosity, initial setting time and final setting time, which can be used to adjust the grout properties to accommodate grouting environment requirements. This grout has the advantage of wide range sources of raw materials, and can be used to solve the lack of fly ash and gangue resource utilization problems.

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Periodical:

Applied Mechanics and Materials (Volumes 357-360)

Pages:

1158-1166

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.357-360.1158

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Online since:

August 2013

Authors:

Tian Feng Gu*, Zhong Di Sun, Feng Tao Luo, Kang Guo, Ya Ming Liu, Li Feng, Qi Qi Zhang

Keywords:

Coal Gangue, Coal Gob Treatment, Grouting Material

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* - Corresponding Author

References

[1] Wang X, Zhao B, Zhang C, et al. Mining Science and Technology (China). 2009, 19(2): 137-143.

Google Scholar

[2] Zhang Pingping, Sun Chuanmei. Scientific And Technological Management Of Land And Resourses. 2004(6): 95-98. (In Chinese).

Google Scholar

[3] Querol X, Zhuang X, Font O, et al. International Journal of Coal Geology. 2011, 85(1): 2-22.

Google Scholar

[4] Haibin L, Zhenling L. Resources, Conservation and Recycling. 2010, 54(12): 1331-1340.

DOI: 10.1016/j.resconrec.2010.05.005

Google Scholar

[5] Zhu Youqun, Shi Bin, Wang Baojun, etc. Journal of Engineering Geology. 2009(3): 394-400. (In Chinese).

Google Scholar

[6] Hu Haifeng, Zhao Yangsheng, Kang Jianrong, etc. Journal of Rock Mechanics and Engineering. 2008(1): 65-71. (In Chinese).

Google Scholar

[7] Yu Y, Bai J, Chen K, et al. Mining Science and Technology (China). 2011, 21(3): 301-306.

Google Scholar

[8] Zheng Hongliang, Xie Xiangwen, Guo Yusong. Chinese Journal of Underground Space an. 2007(6): 1182-1186. (In Chinese).

Google Scholar

[9] Shanxi transportation planning survey and design institute. Mined-out area highway design and construction technology conditions [M]. China Communications Press. 2011: 117. (In Chinese).

Google Scholar

[10] Zhang Zhipei, Wang Hong. Coal Geology & Exploratio. 2003, 31(6): 43-47. (In Chinese).

Google Scholar

[11] Zhang Yishun, He Xiaofang, Zhu Lingli, etc. Journal Of Henan Polytechnic University (Natural Science). 2010(5): 674-679. (In Chinese).

Google Scholar

[12] Xu Zifang, Zhang Mingxu, Xu Haixian. Chinese Journal of Environmental Engineering. 2009(10): 1879-1884. (In Chinese).

Google Scholar

[13] Shanxi Province communications department. Highway mined-out area [M]. China Communications Press. 2005: 337. (In Chinese).

Google Scholar

[14] Sun Zhongdi, Shanxi Province communications department, Force traffic highway survey and design engineering co., LTD. Mined-out area (empty) highway survey , design and construction management manual[M]. China Communications Press. 2005. (In Chinese).

Google Scholar

[15] Li C, Wan J, Sun H, et al. Journal of Hazardous Materials. 2010, 179(1–3): 515-520.

Google Scholar

[16] Zhang Changsen. Silicate Reported. 2004(5): 112-115. (In Chinese).

Google Scholar