Helices are amongst the most common structures in nature and in some cases, such as tethered plant tendrils, a more complex but related shape, the hemihelix forms. In its simplest form it consists of two helices of opposite chirality joined by a perversion. A recent, simple experiment using elastomer strips reveals that hemihelices with multiple reversals of chirality can also occur, a richness not anticipated by existing analyses. Here, we show through analysis and experiments that the transition from a helical to a hemihelical shape, as well as the number of perversions, depends on the height to width ratio of the strip's cross-section. Our findings provides the basis for the deterministic manufacture of a variety of complex three-dimensional shapes from flat strips. © 2014 Liu et al.
CITATION STYLE
Liu, J., Huang, J., Su, T., Bertoldi, K., & Clarke, D. R. (2014). Structural transition from helices to hemihelices. PLoS ONE, 9(4). https://doi.org/10.1371/journal.pone.0093183
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