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Granular material is a kind of soft condensed matter, which gathers up a large number of particles, and the relation between its microstructure and macroscopic mechanical properties is very complex. In this paper, the lateral stress distribution of the two-dimensional vertically stacked lattice of granular material under a pressure in the vertical direction has been investigated experimentally. The steering behavior of the vertical pressure in a granular system is discussed and analyzed in detail based on the experimental results. Results show that in the process of slow compression, the vertical pressure increases slowly in a nonlinear form at first and gradually transforms into a linear increase. This phenomenon corresponds to the dynamic processes of friction-slip-extrusion. This kind of behavior is more significant in the particle system of the same size. In the initial stage of pressing, the vertical force of the stepping motor is mainly used to overcome the friction between the particles and the sliding friction between the particle and the wall. As the friction in the granular system is related to the geometry of the particulate deposits, the material of particles, the roughness of the wall surface, and other relevant factors, the front-end of vertical pressure displays nonlinear characteristics. Continuing the squeeze and push forward, a force chain is formed among particles through self-organization. The vertical force is mainly used to overcome the elastic pressing force between the particles and the force to the wall, so later on the vertical pressure performs linear growth. For the system of particles with an established packed structure, the vertical pressure applied in the vertical direction steers along the force chain between the particles, and the value of horizontal pressure is different at different stacking heights. That is, the pressure in the middle is greater than that at the top and the bottom. The saturated value of steering coefficient k decreases with the stacking angle θ. As the stacking angle increases, the vertical component of the stress becomes more pronounced than its horizontal component. The expression of steering coefficients against stacking angle has been obtained through careful analysis of the geometrical structure and the force distribution of the granular pile, and the theoretical value fit well with the experimental results.
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Keywords:
- granular material /
- geometric structure /
- lateral pressure /
- steering coefficient
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[2] Edwards S F, Grinev D V, Brujic J 2003 Physica A 330 61
[3] DeGiuli E, McElwaine J 2011 Phys. Rev. E 84 041310
[4] Blumenfeld R 2007 New Journal of Physics 9 160
[5] Gerritsena M, Kreissb G, Blumenfeld R 2008 Physica A 387 6263
[6] Majmudar T S, Behringer R P 2005 Nature 435 1079
[7] Sun Q C, Jin F, Wang G Q, Zhang G H 2010 Acta Phys. Sin. 59 0030 (in Chinese) [孙其城, 金峰, 王光谦, 张国华 2010 59 0030]
[8] Blumenfeld R 2004 Phys. Rev. Lett. 93 108310
[9] Lu K Q, Hou M Y, Jiang Z H, Wang Q, Sun G, Liu J X 2012 Acta Phys. Sin. 61 119103 (in Chinese) [陆坤权, 厚美瑛, 姜泽辉, 王强, 孙刚, 刘寄星 2012 61 119103]
[10] Wu D P, Li X X, Qin Q, Gan B, Zang Y 2014 Acta Phys. Sin. 63 098201 (in Chinese) [吴迪平, 李星祥, 秦勤, 管奔, 臧勇 2014 63 098201]
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[1] Ball R C, Blumenfeld R 2002 Phys. Rev. Lett. 88 115505
[2] Edwards S F, Grinev D V, Brujic J 2003 Physica A 330 61
[3] DeGiuli E, McElwaine J 2011 Phys. Rev. E 84 041310
[4] Blumenfeld R 2007 New Journal of Physics 9 160
[5] Gerritsena M, Kreissb G, Blumenfeld R 2008 Physica A 387 6263
[6] Majmudar T S, Behringer R P 2005 Nature 435 1079
[7] Sun Q C, Jin F, Wang G Q, Zhang G H 2010 Acta Phys. Sin. 59 0030 (in Chinese) [孙其城, 金峰, 王光谦, 张国华 2010 59 0030]
[8] Blumenfeld R 2004 Phys. Rev. Lett. 93 108310
[9] Lu K Q, Hou M Y, Jiang Z H, Wang Q, Sun G, Liu J X 2012 Acta Phys. Sin. 61 119103 (in Chinese) [陆坤权, 厚美瑛, 姜泽辉, 王强, 孙刚, 刘寄星 2012 61 119103]
[10] Wu D P, Li X X, Qin Q, Gan B, Zang Y 2014 Acta Phys. Sin. 63 098201 (in Chinese) [吴迪平, 李星祥, 秦勤, 管奔, 臧勇 2014 63 098201]
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