Theory of shear strength of granular materials based on particle breakage

被引:0
作者
Xu Y.-F. [1 ,2 ]
机构
[1] Department of Civil Engineering, Shanghai Jiaotong University, Shanghai
[2] Wanjiang Institute of Technology, Maanshan
来源
Yantu Gongcheng Xuebao/Chinese Journal of Geotechnical Engineering | 2018年 / 40卷 / 07期
关键词
Coarse granular material; Fractal dimension; Particle breakage; Shear strength;
D O I
10.11779/CJGE201807002
中图分类号
学科分类号
摘要
Great efforts have been made to determine the shear strength of coarse granular materials using both elaborate laboratory tests and empirical methods. However, the elaborate laboratory tests are difficult and time consuming to perform, and the physical meaning of empirical parameters is not obvious in the empirical methods. A simple method to determine the shear strength of coarse granular materials is proposed based on a fractal model for particle breakage. The shear strength of coarse granular materials can be seen as the friction between particle contacts, and the particle contacts can be modeled by the fractal model for particle breakage. Thus the shear strength of coarse granular materials can be easily estimated using the fractal dimension of particle-size distribution. The shear strength of coarse granular materials obtained from the proposed method is in satisfactory agreement with the experimental data of bottom ash from municipal solid waste incineration (MSWI). © 2018, Editorial Office of Chinese Journal of Geotechnical Engineering. All right reserved.
引用
收藏
页码:1171 / 1179
页数:8
相关论文
共 28 条
[11]  
Zhang J.-R., Hu Y., Zhang B.-W., Et al., Fractal behavior of particle-size distribution during particle crushing of quartz sand and gravel, Chinese Journal of Geotechnical Engineering, 37, 5, pp. 784-791, (2015)
[12]  
Cai Z.-Y., Li X.-M., Guan Y.-F., Et al., Particle breakage rules of rockfill materials, Chinese Journal of Geotechnical Engineering, 38, 5, pp. 923-929, (2016)
[13]  
Steacy S.J., Sammis C.G., An automaton for fractal patterns of fragmentation, Nature, 360, pp. 250-252, (1991)
[14]  
Perfect E., Fractal models for the fragmentation of rocks and soils: a review, Eng Geol, 48, pp. 185-198, (1997)
[15]  
Palmer A.C., Sanderson T.J.O., Fractal crushing of ice and brittle solids, pp. 469-477, (2001)
[16]  
Xu Y.F., Xu J.P., Wang J.H., Fractal model for size effect on ice failure strength, Cold Reg Sci Tech, 40, 1-2, pp. 135-144, (2004)
[17]  
Xu Y.F., Explanation of sealing phenomenon based oil fractal fragmentation of granular materials, Mech Res Comm, 32, 2, pp. 209-220, (2005)
[18]  
Xu Y.-F., Wang Y.-D., Xi Y., Et al., Size effect on crushing of rock particles, Journal of Engineering Geology, 22, 6, pp. 1023-1027, (2014)
[19]  
Xu Y.F., Approach to the Weibull modulus based on fractal fragmentation of particles, Powder Technology, 292, pp. 99-107, (2016)
[20]  
Frossard E., Hu W., Dano C., Et al., Rockfill shear strength evaluation: a rational method based on size effects, Géotechnique, 62, 5, pp. 415-427, (2012)
123