Fractal behavior of particle-size distribution during particle crushing of quartz sand and gravel

ZHANG Ji-ru; HU Yong; ZHANG Bi-wen; LIU Yuan-zhi

doi:10.11779/CJGE201505003

Volume 37 Issue 5

Turn off MathJax

Article Contents

Abstract

References

Chinese Journal of Geotechnical Engineering > 2015 > 37(5): 784-791. > DOI: 10.11779/CJGE201505003

ZHANG Ji-ru, HU Yong, ZHANG Bi-wen, LIU Yuan-zhi. Fractal behavior of particle-size distribution during particle crushing of quartz sand and gravel[J]. Chinese Journal of Geotechnical Engineering, 2015, 37(5): 784-791. DOI: 10.11779/CJGE201505003

Citation:

PDF (4550 KB)

Fractal behavior of particle-size distribution during particle crushing of quartz sand and gravel

School of Civil Engineering and Architecture, Wuhan University of Technology, Wuhan 430070, China

More Information

Received Date: July 20, 2014
Published Date: May 19, 2015

Graphical Abstract

Abstract

Abstract

The particle breakage of granular soil under loading alters the particle-size distribution (PSD) and further affects its mechanical properties. The experimental evidence shows that any initial distribution of soil particles will tend to be fractal with the development of particle breakage. In order to reveal the transformation mechanism of fractal PSD of soil, a series of confined compression tests on a quartz sand and gravel are conducted to investigate the evolution of PSD and the behavior of particle breakage under even larger compressive stress. The fractal behavior of PSD is studied during particle crushing based on a fractal model and the measured PSD data. It is found that a fractal distribution of granular soil is caused by the growth of particle breakage, which is related to the amount of particle breakage and characterized by the increase of the values of fractal dimension. Despite the different initial distributions and particle sizes of the quartz sand and gravel, the measured PSD data that the values of fractal dimension exceed to 2.2 are shown to be strictly self-similar. Therefore the value of 2.2 can be considered as the lower limit of the fractal dimension of a fractal distribution. The Hardin’s relative breakage is larger than the Einav’s relative breakage in the same breakage state, but the rule of two indexes in response to the stress and volumetric strain is consistent. Once the PSD becomes fractal during particle crushing, the ratio of volumetric strain to relative breakage remains constant and is not much affected by either the uniformity of the initial distribution or the initial particle size. This constant ratio is a useful index for the identification of a fractal distribution, and implies that the relative breakage may be estimated from the measured volumetric strain in a test if the PSD is fractal, without having to terminate the test to analyze the particle size.
- particle breakage,
- particle-size distribution,
- fractal,
- quartz sand and gravel,
- relative breakage

FullText(HTML)

References (19)

References

[1]	尹振宇, 许强, 胡伟. 考虑颗粒破碎效应的粒状材料本构研究: 进展及发展[J]. 岩土工程学报, 2012, 34(12): 2170-2180. (YIN Zhen-yu, XU Qiang, HU Wei. Constitutive relations for granular materials considering particle crushing: review and development[J]. Chinese Journal of Geotechnical Engineering, 2012, 34(12): 2170-2180. (in Chinese))
[2]	LEE K L, FARHOOMAND I. Compressibility and crushing of granular soils in anisotropic triaxial compression[J]. Canadian Geotechnical Journal, 1967, 4(1): 68-86.
[3]	LADE P V, YAMAMURO J. Significance of particle crushing in granular materials[J]. Journal of Geotechnical Engineering, ASCE, 1996, 122(4): 309-316.
[4]	HARDIN B O. Crushing of soil particles[J]. Journal of Geotechnical Engineering, ASCE, 1985, 111(10): 1177-1192.
[5]	EINAV I. Breakage mechanics - part Ⅰ: theory[J]. Journal of the Mechanics and Physics of Solids, 2007, 55(6):1274-1297.
[6]	SAMMIS C G, KING G, BIEGEL R. The kinematics of gouge deformations[J]. Pure and Applied Geophysics, 1987, 125(5): 777-812.
[7]	LUZZANI L, COOP M R. On the relationship between particle breakage and the critical state of sands[J]. Soils and Foundations, 2002, 42(2): 71-82.
[8]	COOP M R, SORENSEN K K, BODAS FREITAS T, et al. Particle breakage during shearing of a carbonate sand[J]. Géotechnique, 2004, 54(3): 157-163.
[9]	MIAO G, AIREY D. Breakage and ultimate states for a carbonate sand[J]. Géotechnique, 2013, 63(14): 1221-1229.
[10]	TURCOTTE D L. Fractals and fragmentation[J]. Journal of Geophysical Research, 1986, 91(B2): 1921-1926.
[11]	李罡, 刘映晶, 尹振宇, 等. 粒状材料临界状态的颗粒级配效应[J]. 岩土工程学报, 2014, 36(3): 452-457. (LI Gang, LIU Ying-jing, YIN Zhen-yu, et al. Grading effect on critical state behavior of granular materials[J]. Chinese Journal of Geotechnical Engineering, 2014, 36(3): 452-457. (in Chinese))
[12]	刘萌成, 高玉峰, 刘汉龙. 模拟堆石料颗粒破碎对强度变形的影响[J]. 岩土工程学报, 2011, 33(11): 1691-1699. (LIU Meng-cheng, GAO Yu-feng, LIU Han-long. Effect of particle breakage on strength and deformation of modeled rockfills[J]. Chinese Journal of Geotechnical Engineering, 2011, 33(11): 1691-1699. (in Chinese))
[13]	MUIR W D, MAEDA K. Changing grade of soil: Effect on critical states[J]. Acta Geotechnica, 2008, 3(1): 3-14.
[14]	TYLER S W, WHEATCRAFT S W. Fractal scaling of soil particle-size distributions: analysis and limitations[J]. Soil Science Society of America Journal, 1992, 56(2): 362-369.
[15]	胡伟, 尹振宇, DANO C, 等. 易破碎粒状材料本构研究[J].岩土力学, 2011, 32(增刊2): 159-165. (HU Wei, YIN Zhen-yu, DANO C, et al. Constitutive study of crushable granular materials[J]. Rock and Soil Mechanics, 2011, 32(S2): 159-165. (in Chinese))
[16]	孙逸飞, 刘汉龙, 杨贵. 考虑颗粒破碎引起级配演变的粗粒料屈服函数研究[J]. 岩土力学, 2011, 34(12): 3479-3484. (SUN Yi-fei, LIU Han-long, YANG Gui. Yielding function for coarse aggregates considering gradation evolution induced by particle breakage[J]. Rock and Soil Mechanics, 2011, 34(12): 3479-3484. (in Chinese))
[17]	张季如, 祝杰, 黄文竞. 侧限压缩下石英砂砾的颗粒破碎特性及其分形描述[J]. 岩土工程学报, 2008, 30(6): 783-789. (ZHANG Ji-ru, ZHU Jie, HUANG Wen-jing. Crushing and fractal behaviors of quartz sand-gravel particles under confined compression[J]. Chinese Journal of Geotechnical Engineering, 2008, 30(6): 783-789. (in Chinese))
[18]	TSOUNGUI O, VALLET D, CHARMET J-C. Numerical model of crushing of grains inside two-dimensional granular materials[J]. Powder Technology, 1999, 105(1/2/3): 190-198.
[19]	MCDOWELL G R, BOLTON M D, ROBERTSON D. The fractal crushing of granular materials[J]. Journal of the Mechanics and Physics of Solids, 1996, 44(12): 2079-2102.

Supplements (0)

Cited By

Get Citation

PDF

XML

Article views (420) PDF downloads (552)

Fractal behavior of particle-size distribution during particle crushing of quartz sand and gravel

Abstract

References

Catalog

Related

Fractal behavior of particle-size distribution during particle crushing of quartz sand and gravel

Abstract

References

Catalog

Related

Export File

Citation

Format

Content