Self-organized magnetic particles to tune the mechanical behavior of a granular system

Above a certain density a granular material jams. This property can be controlled by either tuning a global property, such as the packing fraction or by applying shear strain, or at the micro-scale by tuning grain shape, inter-particle friction or externally controlled organization. Here, we introdu...

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Published in	Europhysics letters Vol. 115; no. 6; p. 64003
Main Authors	Cox, Meredith, Wang, Dong, Barés, Jonathan, Behringer, Robert P.
Format	Journal Article
Language	English
Published	Les Ulis EDP Sciences, IOP Publishing and Società Italiana di Fisica 01.09.2016 IOP Publishing European Physical Society / EDP Sciences / Società Italiana di Fisica / IOP Publishing
Subjects	47.57.Gc 78.20.Fm 81.05.Rm Compressive strength Condensed Matter Coordination numbers Disordered Systems and Neural Networks Elastic anisotropy Engineering Sciences Granular materials Granular media Jamming Magnetic properties Magnets Materials Materials Science Mechanical properties Mechanics Mechanics of materials Physics Shear strain Statistical Mechanics Tuning
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ISSN	0295-5075 1286-4854
DOI	10.1209/0295-5075/115/64003

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Abstract	Above a certain density a granular material jams. This property can be controlled by either tuning a global property, such as the packing fraction or by applying shear strain, or at the micro-scale by tuning grain shape, inter-particle friction or externally controlled organization. Here, we introduce a novel way to change a local granular property by adding a weak anisotropic magnetic interaction between particles. We measure the evolution of the pressure, P, and coordination number, Z, for a packing of 2D photo-elastic disks, subject to uniaxial compression. A fraction Rm of the particles have embedded cuboidal magnets. The strength of the magnetic interactions between particles is too weak to have a strong direct effect on P or Z when the system is jammed. However, the magnetic interactions play an important role in the evolution of latent force networks when systems containing a large enough fraction of the particles with magnets are driven through unjammed to jammed states. In this case, a statistically stable network of magnetic chains self-organizes before jamming and overlaps with force chains once jamming occurs, strengthening the granular medium. This property opens a novel way to control mechanical properties of granular materials.
AbstractList	Above a certain density a granular material jams. This property can be controlled by either tuning a global property, such as the packing fraction or by applying shear strain, or at the micro-scale by tuning grain shape, inter-particle friction or externally controlled organization. Here, we introduce a novel way to change a local granular property by adding a weak anisotropic magnetic interaction between particles. We measure the evolution of the pressure, P, and coordination number, Z, for a packing of 2D photo-elastic disks, subject to uniaxial compression. A fraction Rm of the particles have embedded cuboidal magnets. The strength of the magnetic interactions between particles is too weak to have a strong direct effect on P or Z when the system is jammed. However, the magnetic interactions play an important role in the evolution of latent force networks when systems containing a large enough fraction of the particles with magnets are driven through unjammed to jammed states. In this case, a statistically stable network of magnetic chains self-organizes before jamming and overlaps with force chains once jamming occurs, strengthening the granular medium. This property opens a novel way to control mechanical properties of granular materials. Above a certain density a granular material jams. This property can be controlledby either tuning a global property, such as the packing fraction or by applying shear strain, or atthe micro-scale by tuning grain shape, inter-particle friction or externally controlled organization.Here, we introduce a novel way to change a local granular property by adding a weak anisotropicmagnetic interaction between particles. We measure the evolution of the pressure, P, and coordinationnumber, Z, for a packing of 2D photo-elastic disks, subject to uniaxial compression.A fraction Rm of the particles have embedded cuboidal magnets. The strength of the magneticinteractions between particles is too weak to have a strong direct effect on P or Z when the systemis jammed. However, the magnetic interactions play an important role in the evolution of latentforce networks when systems containing a large enough fraction of the particles with magnetsare driven through unjammed to jammed states. In this case, a statistically stable network ofmagnetic chains self-organizes before jamming and overlaps with force chains once jamming occurs,strengthening the granular medium. This property opens a novel way to control mechanicalproperties of granular materials.
Author	Barés, Jonathan Wang, Dong Behringer, Robert P. Cox, Meredith
Author_xml	– sequence: 1 givenname: Meredith surname: Cox fullname: Cox, Meredith organization: Duke University Department of Physics & Center for Nonlinear and Complex Systems, - Durham, NC, 27708, USA – sequence: 2 givenname: Dong surname: Wang fullname: Wang, Dong organization: Duke University Department of Physics & Center for Nonlinear and Complex Systems, - Durham, NC, 27708, USA – sequence: 3 givenname: Jonathan surname: Barés fullname: Barés, Jonathan organization: Université de Montpellier-CNRS Laboratoire de Mécanique et de Génie Civil, UMR 5508, - Montpellier, France – sequence: 4 givenname: Robert P. surname: Behringer fullname: Behringer, Robert P. organization: Duke University Department of Physics & Center for Nonlinear and Complex Systems, - Durham, NC, 27708, USA
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Cites_doi	10.1039/C4SM01923G 10.1103/PhysRevLett.98.058001 10.1103/PhysRevLett.82.5241 10.1007/s10035-016-0606-4 10.1038/nature10667 10.1103/PhysRevLett.80.61 10.1038/nmat3543 10.1109/IROS.2009.5354790 10.1073/pnas.1003250107 10.1109/ICRA.2012.6225373 10.1038/23819 10.1103/PhysRevLett.87.035506 10.1103/PhysRevLett.110.018302 10.1007/s10035-016-0629-x 10.1039/C3SM52047A 10.1177/1045389X9400500607 10.1088/1742-5468/2014/06/P06004 10.1209/0295-5075/97/54001 10.1364/AO.36.007664 10.1103/PhysRevE.69.032501
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Snippet	Above a certain density a granular material jams. This property can be controlled by either tuning a global property, such as the packing fraction or by... Above a certain density a granular material jams. This property can be controlledby either tuning a global property, such as the packing fraction or by...
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SubjectTerms	47.57.Gc 78.20.Fm 81.05.Rm Compressive strength Condensed Matter Coordination numbers Disordered Systems and Neural Networks Elastic anisotropy Engineering Sciences Granular materials Granular media Jamming Magnetic properties Magnets Materials Materials Science Mechanical properties Mechanics Mechanics of materials Physics Shear strain Statistical Mechanics Tuning
Title	Self-organized magnetic particles to tune the mechanical behavior of a granular system
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