Elastobuoyant Heavy Spheres: A Unique Way to Study Nonlinear Elasticity
Large deformations in soft elastic materials are ubiquitous, yet systematic studies and methods to understand the mechanics of such huge strains are lacking. Here, we investigate this complex problem systematically with a simple experiment: by introducing a heavy bead of radius a in an incompressibl...
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AMER PHYSICAL SOC
2016
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ndltd-arizona.edu-oai-arizona.openrepository.com-10150-6227232017-03-04T03:00:46Z Elastobuoyant Heavy Spheres: A Unique Way to Study Nonlinear Elasticity Chakrabarti, Aditi Chaudhury, Manoj K. Mora, Serge Pomeau, Yves Univ Arizona, Dept Math Large deformations in soft elastic materials are ubiquitous, yet systematic studies and methods to understand the mechanics of such huge strains are lacking. Here, we investigate this complex problem systematically with a simple experiment: by introducing a heavy bead of radius a in an incompressible soft elastic medium. We find a scaling law for the penetration depth (delta) of the bead inside the softest gels as delta similar to a(3/2), which is vindicated by an original asymptotic analytic model developed in this article. This model demonstrates that the observed relationship is precisely at the demarcating boundary of what would be required for the field variables to either diverge or converge. This correspondence between a unique mathematical prediction and the experimental observation ushers in new insights into the behavior of the deformations of strongly nonlinear materials. 2016-12-28 Article Elastobuoyant Heavy Spheres: A Unique Way to Study Nonlinear Elasticity 2016, 6 (4) Physical Review X 2160-3308 10.1103/PhysRevX.6.041066 http://hdl.handle.net/10150/622723 http://arizona.openrepository.com/arizona/handle/10150/622723 Physical Review X en http://link.aps.org/doi/10.1103/PhysRevX.6.041066 Published by the American Physical Society under the terms of the Creative Commons Attribution 4.0 International license. AMER PHYSICAL SOC |
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en |
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description |
Large deformations in soft elastic materials are ubiquitous, yet systematic studies and methods to understand the mechanics of such huge strains are lacking. Here, we investigate this complex problem systematically with a simple experiment: by introducing a heavy bead of radius a in an incompressible soft elastic medium. We find a scaling law for the penetration depth (delta) of the bead inside the softest gels as delta similar to a(3/2), which is vindicated by an original asymptotic analytic model developed in this article. This model demonstrates that the observed relationship is precisely at the demarcating boundary of what would be required for the field variables to either diverge or converge. This correspondence between a unique mathematical prediction and the experimental observation ushers in new insights into the behavior of the deformations of strongly nonlinear materials. |
author2 |
Univ Arizona, Dept Math |
author_facet |
Univ Arizona, Dept Math Chakrabarti, Aditi Chaudhury, Manoj K. Mora, Serge Pomeau, Yves |
author |
Chakrabarti, Aditi Chaudhury, Manoj K. Mora, Serge Pomeau, Yves |
spellingShingle |
Chakrabarti, Aditi Chaudhury, Manoj K. Mora, Serge Pomeau, Yves Elastobuoyant Heavy Spheres: A Unique Way to Study Nonlinear Elasticity |
author_sort |
Chakrabarti, Aditi |
title |
Elastobuoyant Heavy Spheres: A Unique Way to Study Nonlinear Elasticity |
title_short |
Elastobuoyant Heavy Spheres: A Unique Way to Study Nonlinear Elasticity |
title_full |
Elastobuoyant Heavy Spheres: A Unique Way to Study Nonlinear Elasticity |
title_fullStr |
Elastobuoyant Heavy Spheres: A Unique Way to Study Nonlinear Elasticity |
title_full_unstemmed |
Elastobuoyant Heavy Spheres: A Unique Way to Study Nonlinear Elasticity |
title_sort |
elastobuoyant heavy spheres: a unique way to study nonlinear elasticity |
publisher |
AMER PHYSICAL SOC |
publishDate |
2016 |
url |
http://hdl.handle.net/10150/622723 http://arizona.openrepository.com/arizona/handle/10150/622723 |
work_keys_str_mv |
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