Programmable Mechanical Metamaterials: the Role of Geometry
We experimentally and numerically study the precise role of geometry for the mechanics of biholar metamaterials, quasi-2D slabs of rubber patterned by circular holes of two alternating sizes. We recently showed how the response to uniaxial compression of these metamaterials can be programmed by thei...
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Zusammenfassung: | We experimentally and numerically study the precise role of geometry for the
mechanics of biholar metamaterials, quasi-2D slabs of rubber patterned by
circular holes of two alternating sizes. We recently showed how the response to
uniaxial compression of these metamaterials can be programmed by their lateral
confinement $^1$. In particular, there is a range of confining strains
$\varepsilon_x$ for which the resistance to compression becomes non-trivial -
non-monotonic or hysteretic - in a range of compressive strains
$\varepsilon_y$. Here we show how the dimensionless geometrical parameters $t$
and $\chi$, which characterize the porosity and size ratio of the holes that
pattern these metamaterials, can significantly tune these ranges over a wide
range. We study the behavior for the limiting cases where $t$ and $\chi$ become
large, and discuss the new physics that arises there. Away from these extreme
limits, the variation of the strain ranges of interest is smooth with porosity,
but the variation with size ratio evidences a cross-over at low $\chi$ from
biholar to monoholar (equal sized holes) behavior, related to the elastic
instabilities in purely monoholar metamaterials$^2$. Our study provides precise
guidelines for the rational design of programmable biholar metamaterials,
tailored to specific applications, and indicates that the widest range of
programmability arises for moderate values of both $t$ and $\chi$. |
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DOI: | 10.48550/arxiv.1606.00658 |