Ultrastable shear jammed granular material
Dry granular materials such as sand, gravel, pills, or agricultural grains, can become rigid when compressed or sheared. At low density, one can distort the shape of a container of granular material without encountering any resistance. Under isotropic compression, the material will reach a certai...
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sg-ntu-dr.10356-1650302023-03-11T16:48:16Z Ultrastable shear jammed granular material Zhao, Yiqiu Zhao, Yuchen Wang, Dong Zheng, Hu Chakraborty, Bulbul Socolar, Joshua E. S. School of Mechanical and Aerospace Engineering Engineering::Mechanical engineering Granular Materials Cyclic Shear Dry granular materials such as sand, gravel, pills, or agricultural grains, can become rigid when compressed or sheared. At low density, one can distort the shape of a container of granular material without encountering any resistance. Under isotropic compression, the material will reach a certain {\it jamming} density and then resist further compression. {\em Shear jamming} occurs when resistance to shear emerges in a system at a density lower than the jamming density, and the elastic properties of such states have important implications for industrial and geophysical processes. We report on experimental observations of changes in the mechanical properties of a shear-jammed granular material subjected to small-amplitude, quasi-static cyclic shear. We study a layer of plastic discs confined to a shear cell, using photoelasticimetry to measure all inter-particle vector forces. For sufficiently small cyclic shear amplitudes and large enough initial shear, the material evolves to an unexpected "ultra-stable" state in which all the particle positions and inter-particle contact forces remain unchanged after each complete shear cycle for thousands of cycles. The stress response of these states to small imposed shear is nearly elastic, in contrast to the original shear jammed state. Published version This work was primarily supported by National Science Foundation (NSF) Grant No. DMR1809762; B. C. was supported by NSF Grants No. CBET1916877, No. CMMT-2026834, and No. BSF-2016188. H. Z. thanks the support from the Fundamental Research Funds for the Central Universities No. 22120210143. 2023-03-08T05:41:42Z 2023-03-08T05:41:42Z 2022 Journal Article Zhao, Y., Zhao, Y., Wang, D., Zheng, H., Chakraborty, B. & Socolar, J. E. S. (2022). Ultra-stable shear jammed granular material. Physical Review X, 12(3), 031021-1-031021-14. https://dx.doi.org/10.1103/PhysRevX.12.031021 2160-3308 https://hdl.handle.net/10356/165030 10.1103/PhysRevX.12.031021 2-s2.0-85136217210 3 12 031021-1 031021-14 en Physical Review X © 2022 The Author(s). Published by the American Physical Society under the terms of the Creative Commons Attribution 4.0 International license. Further distribution of this work must maintain attribution to the author(s) and the published article’s title, journal citation, and DOI. application/pdf |
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Engineering::Mechanical engineering Granular Materials Cyclic Shear |
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Engineering::Mechanical engineering Granular Materials Cyclic Shear Zhao, Yiqiu Zhao, Yuchen Wang, Dong Zheng, Hu Chakraborty, Bulbul Socolar, Joshua E. S. Ultrastable shear jammed granular material |
| description |
Dry granular materials such as sand, gravel, pills, or agricultural grains,
can become rigid when compressed or sheared. At low density, one can distort
the shape of a container of granular material without encountering any
resistance. Under isotropic compression, the material will reach a certain {\it
jamming} density and then resist further compression. {\em Shear jamming}
occurs when resistance to shear emerges in a system at a density lower than the
jamming density, and the elastic properties of such states have important
implications for industrial and geophysical processes. We report on
experimental observations of changes in the mechanical properties of a
shear-jammed granular material subjected to small-amplitude, quasi-static
cyclic shear. We study a layer of plastic discs confined to a shear cell, using
photoelasticimetry to measure all inter-particle vector forces. For
sufficiently small cyclic shear amplitudes and large enough initial shear, the
material evolves to an unexpected "ultra-stable" state in which all the
particle positions and inter-particle contact forces remain unchanged after
each complete shear cycle for thousands of cycles. The stress response of these
states to small imposed shear is nearly elastic, in contrast to the original
shear jammed state. |
| author2 |
School of Mechanical and Aerospace Engineering |
| author_facet |
School of Mechanical and Aerospace Engineering Zhao, Yiqiu Zhao, Yuchen Wang, Dong Zheng, Hu Chakraborty, Bulbul Socolar, Joshua E. S. |
| format |
Article |
| author |
Zhao, Yiqiu Zhao, Yuchen Wang, Dong Zheng, Hu Chakraborty, Bulbul Socolar, Joshua E. S. |
| author_sort |
Zhao, Yiqiu |
| title |
Ultrastable shear jammed granular material |
| title_short |
Ultrastable shear jammed granular material |
| title_full |
Ultrastable shear jammed granular material |
| title_fullStr |
Ultrastable shear jammed granular material |
| title_full_unstemmed |
Ultrastable shear jammed granular material |
| title_sort |
ultrastable shear jammed granular material |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/165030 |
| _version_ |
1761781946760822784 |