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2018 | OriginalPaper | Buchkapitel

Influence of Particle Shape on the Mechanical Property of Granular Materials

verfasst von : Jianqiu Tian, Runqiu Huang, Enlong Liu

Erschienen in: Proceedings of GeoShanghai 2018 International Conference: Fundamentals of Soil Behaviours

Verlag: Springer Singapore

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Abstract

Granular materials exist extensively in nature and the particle shape has great influence on the mechanical property of granular materials. In order to study the influence of particle shape on the mechanical property of granular materials and establish the relationships between the micro-parameters of particle shape and macro-parameters of the mechanical property of granular materials, a 3D shape quantitative method based on two-dimensional analysis was proposed, by which the granular shape of same materials and three types of particles (sphere, elliptic cylinder and plate) was described. The direct shear tests were done under the same relative density and different normal loads, from which the rules of shear stress and dilatation with particle shape were found. The stress-dilatancy model was introduced and parameter \( \upmu \) representing friction angle of particles was revised to consider the influence of particle shape. The results show that the more irregular the particle shape, the higher the peak shear stress and peak vertical displacement. These macro-mechanical properties were resulted from the different particle boundaries and relative movements. At last, the relationship between the parameter \( \upmu \) of stress-dilatancy model and particle shape could be calculated. The parameter \( \upmu \) becomes larger as the particle shape becomes more irregular but its increasing rate becomes slower and slower.

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Clayton, C.R.I., Abbireddy, C.O.R., Schiebel, R.: A method of estimating the form of coarse particulates. Geotechnique 59(6), 493–501 (2009)CrossRef

Shinohara, K., Oida, M., Golman, B.: Effect of particle shape on angle of internal friction by triaxial compression test. Powder Technol. 107(1), 131–136 (2000)CrossRef

Cho, G.C., Dodds, J., Santamarina, J.C.: Particle shape effects on packing density, stiffness, and strength: natural and crushed sands. J. Geotech. Geoenviron. Eng. 132(5), 591–602 (2006)CrossRef

Liu, Q., Xiang, W., Lehane, B.M., Cui, D., Li, Y.: Experimental study of effect of particle shapes on shear strength of sand and tip resistance of driven piles (in Chinese). Chin. J. Rock Mech. Eng. 30(2), 400–410 (2011)

Yang, J., Wei, L.M.: Collapse of loose sand with the addition of fines: the role of particle shape. Geotechnique 62(12), 1111–1125 (2012)CrossRef

Yang, J., Luo, X.D.: Exploring the relationship between critical state and particle shape for granular materials. J. Mech. Phys. Solid. 84, 196–213 (2015)CrossRef

Zhang, C., Shu, G.P.: Effect of particle shape on biaxial tests simulated by particle flow code (in Chinese). Chin. J. Geotech. Eng. 31(8), 1281–1286 (2009)

Nouguier-Lehon, C.: Effect of the grain elongation on the behaviour of granular materials in biaxial compression. C.R. Mec. 338(10–11), 587–595 (2010)CrossRef

Kong, L., Peng, R.: Particle flow simulation of influence of particle shape on mechanical properties of quasi-sands (in Chinese). Chin. J. Rock Mech. Eng. 30(10), 2112–2119 (2011)

10.

Zhao, S., Zhou, X.: Effects of particle asphericity on the macro- and micro- mechanical behaviors of granular assemblies. Granular Matter 19(2), 38 (2017)CrossRef

11.

Shi, D.D., Zhou, J., Liu, W.B., Deng, Y.B.: Exploring macro- and micro-scale responses of sand in direct shear tests by numerical simulations using non-circular particles (in Chinese). Chin. J. Geotech. Eng. 32(10), 1557–1565 (2010)

12.

Zhao, S., Zhou, X., Liu, W.: Discrete element simulations of direct shear tests with particle angularity effect. Granular Matter 17(6), 793–806 (2015)CrossRef

13.

Yang, Y., Cheng, Y.M., Sun, Q.C.: The effects of rolling resistance and non-convex particle on the mechanics of the undrained granular assemblies in 2D. Powder Technol. 318, 528–542 (2017)CrossRef

14.

Höhner, D., Wirtz, S., Scherer, V.: A study on the influence of particle shape on the mechanical interactions of granular media in a hopper using the discrete element method. Powder Technol. 278, 286–305 (2015)CrossRef

15.

Sheng, S.X., Dou, Y., Tao, X.Z., et al.: SL237-1999 Specification of soil test. China Water and Power Press, Beijing (1999)

16.

Abbireddy, C.O.R., Clayton, C.R.I.: The impact of particle form on the packing and shear behavior of some granular materials: an experimental study. Granular Matter 17(4), 427–438 (2015)CrossRef

17.

Altuhafi, F., O’Sullivan, C., Cavarretta, I.: Analysis of an image-based method to quantify the size and shape of sand particles. J. Geotech. Geoenviron. Eng. 139(8), 1290–1307 (2013)CrossRef

18.

Mtsuoka, H.: A microscopic study on shear mechanism of granular materials. Soils Found. 14(1), 29–43 (1974)CrossRef

19.

Liu, S., Matsuoka, H.: Microscopic interpretation on a stress-dilatancy relationship of granular materials. Soils Found. 43(3), 73–84 (2003)CrossRef

20.

Rowe, P.W.: The stress-dialatancy relation for static equilibrium of an assembly of particles in contact. Proc. R. Soc. London A Math. Phys. Sci. 269, 500–527 (1962)CrossRef

21.

Li, Y., Huang, R., Chan, L.S., Chen, J.: Effects of particle shape on shear strength of clay-gravel mixture. KSCE J. Civ. Eng. 17(4), 712–717 (2013)CrossRef

Titel: Influence of Particle Shape on the Mechanical Property of Granular Materials
verfasst von: Jianqiu Tian
Runqiu Huang
Enlong Liu
Verlag: Springer Singapore
Buch: Proceedings of GeoShanghai 2018 International Conference: Fundamentals of Soil Behaviours
Print ISBN: 978-981-13-0124-7

Electronic ISBN: 978-981-13-0125-4

Copyright-Jahr: 2018
DOI: https://doi.org/10.1007/978-981-13-0125-4_7

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