Funct. Mater. 2017; 24 (2): 335-340.

doi:https://doi.org/10.15407/fm24.02.335

Study of influencing factors on the peak dissipation energy at physical simulation similar material of coal-rock solid-gas coupling

Zhao Peng-xiang1,2, He Bin-lei1, Xiao Peng1,2, Yang Erhao1, Gao Jin-biao1

1College of Safety Science and Engineering, Xi’an University of Science & Technology, Xi’an 710054 China
2Key Laboratory of Western Mine Exploitation and Hazard Prevention of the Ministry of Education, Xi’an 710054 China

Abstract: 

Based on the study of the test specimens made with the new solid-gas coupling similar material, the variation rule of energy characteristics during the compression and rupture of rocks and the criterion to judge rock damage were obtained. The results show that during the process of uniaxial fracturing, the peak dissipation energy of the test specimen has a logarithmic relationship with the bone-glue ratio, while it has a positively correlated exponential relationship with the mass ratio of gas-barrier cementing agent. It was shown that the sensitivity of peak dissipation energy toward the mass ratio of gas-barrier cementing agent is more obvious. The research results have provided the theoretical basis for the quantified appraisal of the fracture evolution region.

Keywords: 
bone-glue ratio; gas-barrier cementing agent; similar material; uniaxial fracturing; peak dissipation energy; sensitivity

Full text in PDF

References: 

1. Su Cheng-dong, Zhai Xin-xian, Li Bao-fu, et al., J,Min,Safety Eng., 28(2): 225, 2011.

2. Wei Jialei, Liu Shanjun, Wu Lixin et al., J, Min, Safety Eng., 32(6),1017, 2015.

3. Cao Anye, Jing Guangcheng, Dou Linming et al., J. Min. Safety Eng., 32(6), 923, 2015.

4. Mu Kang, Yu Jin, Li Hong et al. Rock Soil Mech., 36(5),1496, 2015.

5. Zhao Fujun, Wang Hongyu, Peng Yun et al. Chinese J. Rock Mech.Eng., 31(7), 1363, 2012.

6. Lai Yushu, Xiong Yan, Cheng Longfei et al. J. Vibr. Shock, 33(10),177, 2014.

7. Gong Cong, Chen Hui, China Min.Mag, 23(10),144, 2014.

8. Wan Guoxiang, Wang Qisheng, Li Xibing et al. J.Exp. Mech., 27(6), 727, 2012.

9. Lu Hongjian, Liang Peng, Gan Deqing, Zhang Songlin, Min. Res. .Develop., 36(04), 78, 2016.

10. Li Shugang, Zhao Pengxiang, Lin Haifei et al. J. Min. Safety Eng., 31(5),750, 2014.

11. Lin Haifei, Zhai Yulong, Li Shugang et al. J. China Coal Soc., 41(3), 672, 2016.

Current number: